This work is licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. ech T Press Science Computers, Materials & Continua DOI: 10.32604/cmc.2023.026441 Article Six Generation Load Cells Solution Based Congestion Management Control Purpose Chafaa Hamrouni 1, 2 , * and Aarif Alutaybi 1 1 Taif University-Khurma Univ. College-Department of Computer Sciences, Khurma, 2935, Kingdom of Saudi Arabia 2 Research Groups on Intelligent Machines Lab. National School of Engineering of Sfax, Sfax, 3038, TN *Corresponding Author: Chafaa Hamrouni. Email: cmhamrouni@tu.edu.sa Received: 26 December 2021; Accepted: 22 February 2022 Abstract: Several assessing efforts are approved making both communica- tion and information technologies available. In addition to being a part of universal access and service, we aim at assessing the impact of radio access technologies on universal access indicators. The proposed work demonstrates the possibility of inter-working of all existing Radio Access Technologies (RATs), in a limited area presented in the Six Generation Radio Resources Allocation (6 G-A) network. We propose a solution for the Vertical hand Over (VHO) in 6 G-A heterogeneous system, that adopts Media Independent Handover (MIH) protocol to benefit between different used technologies in a direct communication firstly and facilitate, in addition, coordination between congestion control mechanisms with the mobility management entity. The mathematical model has been developed to deal with locality coverage and broadband needs, based on a methodological approach consisting in integrating parameters linked to access index through radio technologies. This approach has been applied. In practice, it has contributed to highlight- ing its relative simplicity of implementation, but it is not enough for six- generation system radio access networks. The congestion control mechanism is integrated within the vertical handover process, this proposition is used to prevent each presented congestion state. The media independent handover IS equipment, as well as six G-A equipment which are both considered as the whole architecture key equipment, perform and guaranty this related process. Efficient communication is established besides information exchange between various technologies. Achieved evaluation results are performant and prove that proposed mechanisms are efficient. Both simulation and tests results are accomplished. Keywords: Long-term evolution–advanced; media independent handover; point of service; point of attachment; vertical hand over; radio access technology; sixth generation