296
Asian Journal of Engineering, Sciences and Technology - Volume 9, Issue 2 2019
By Muhammad Kashif Majeed
Keywords: Internet of Things, Error Vector Magnitude, Millimeter Wave, Micro Resonator System, MIMO, LTE, Remote Healthcare, Radio Over Fiber, 5G
The use of radio over fiber technologies in the fifth generation of mobile communications will be critical role to enhancing transmission capacity, mobile cells should be made efficient and user-friendly, with architecture that is simple enough for a layperson to manage, especially for smart grid and cloud computing applications. Due to IEEE's low-cost and efficient use of Local Area Network, Since the number of WLAN users increases daily, we will maintain a millisecond delay in order to prevent traffic or congestion, as this is required for 5G applications. Our research has shown that multi gigahertz pulse train recurrence is essential in various wireless communication applications. A radio-over-fiber technique boosts wireless communication's capacity while also reducing latency. Using this method, you may create a flexible and cost-effective backhaul network that uses less energy. Other technologies like as wavelength filtering, multiplexing and switching will make use of an optical ring waveguide as well. This paper is significant because it shows a ROF and MMW wireless system using standard wireless signal transmission as proof-of-concept. Furthermore, the study determines the practical wireless transmission distance for wireless signal transmission based on receiver sensitivity evaluation. In this paper, we provide an overview of current advances in radio over fiber technology with 5G that may enable wireless signal distribution in a converged wireless optical network. We also discuss some of the difficulties that will need to be overcome in order for radio over fiber technology to be successfully used in future wireless systems such as 5G and 60 GHz networks.