부산대학교 도서관

In the realm of 5G wireless networks, achieving ultra-low latency is of paramount importance to support real-time applications and services. A critical factor influencing overall network latency is the backhaul links connecting remote base stations to the core network. This research delves into the application of chaotic algorithms for latency minimization in 5G network backhaul links. Chaotic algorithms, known for their sensitivity to initial conditions, offer a unique approach to optimizing network performance. By harnessing the inherent randomness and deterministic chaos, these algorithms can effectively explore the solution space for optimal routing and resource allocation. Through comprehensive simulations and performance evaluations, this study demonstrates the potential of chaotic algorithms to significantly reduce latency in 5G backhaul networks. The results underscore the viability of utilizing chaos- inspired techniques to address latency concerns, opening new avenues for enhancing the overall efficiency of 5G networks.