Mehmet Sener, Tekirdag Namık Kemal University , Turkey

In recent years, Visible Light Communication (VLC) has gained significant traction within the scientific community, primarily due to its potential to improve energy efficiency and to introduce innovative methodologies in the realm of communication technologies. This paper presents an in-depth exploration of VLC's application in the development of an advanced parking information system, a solution that could revolutionize the way drivers locate available parking spaces in urban environments. The feasibility of implementing this system involves careful evaluation of various light-emitting diodes (LEDs), which serve as the backbone of the VLC framework. Through a series of controlled experiments, we examined several types of LEDs to determine their suitability for our specific communication needs. Among the options tested, the blue 10 Pie LED emerged as the most favorable candidate. Its selection is supported by two critical factors: its cost-effectiveness, which makes it accessible for widespread deployment, and its superior performance capabilities, which ensure reliable and efficient data transmission. Overall, this research highlights not only the technical aspects of VLC technology but also its practical implications in enhancing urban mobility and parking management systems, paving the way for smarter city solutions.

APA:
Sener, M. (2023). Testing the Feasibility of Various LEDs for a Visible Light Communication System. Journal of Science and Engineering Management, 4(1), 35-44. https://doi.org/10.33832/jsem.2023.4.1.04