Wireless internet has become an essential part of our daily lives, supporting a wide range of activities from professional communications to entertainment. However, the increasing demand for wireless connectivity has led to a rise in power consumption and carbon emissions globally. In order to address this issue, researchers have been exploring energy-efficient techniques to enhance communication between devices and facilitate the sharing of data online. One innovative solution that has emerged is visible light communication (VLC), which uses light-emitting diodes (LEDs) or artificial light sources to transmit data. Recently, a team of researchers from Central University (CU), IIDM, and CU J&K in India have developed a hybrid approach that combines VLC with RF communication to enable reliable and energy-efficient indoor communication.

The proposed hybrid communication system consists of two key components: a transmitter and a receiver module. These modules are physically separated but connected through a VLC channel. The transmitter utilizes LED-produced light to transmit binary data, while the receiver, equipped with a photosensitive device such as a photodiode or camera, can extract the transmitted information if in line of sight. Modulation schemes are employed to ensure a continuous data stream and maintain consistent power consumption levels throughout communication.

The researchers conducted simulations using various platforms such as Python, Scilab, and MathWorks tools to evaluate the performance of their indoor wireless communication system. Their findings indicate that the hybrid system offers stable communication in indoor environments with substantial energy savings. A comparative analysis of RF communication, hybrid (RF+ VLC), and pure VLC reveals the high energy efficiency of the proposed system, with a low Specific Absorption Rate (SAR), decreased incident and absorbed power density, and minimal impact on human body tissues exposed to radiation. Additionally, the system enhances the battery life of mobile devices by approximately 7 hours, validating its effectiveness in improving energy consumption.

By merging VLC with RF technology, the research team has made significant strides in enhancing the energy efficiency of wireless communication systems. Their hybrid approach not only reduces power consumption and electromagnetic radiation but also improves the overall quality of service and user experience. The promising results obtained from their initial simulations lay the foundation for further developments and testing in future studies. This innovative solution paves the way for more sustainable and efficient wireless networks that can meet the increasing demands of modern applications and services.

The integration of VLC with RF communication represents a groundbreaking advancement in the field of wireless technology. By prioritizing energy efficiency and performance optimization, researchers are shaping the future of wireless communication networks. As we strive to reduce our carbon footprint and enhance the sustainability of our digital infrastructure, innovative solutions like the hybrid system developed by the CU research team offer a glimpse into a more environmentally friendly and efficient wireless future.

Technology

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