Apr 29, 2020 · We develop an autonomous, robust and resilient load balancing framework. The framework consists of two major modules. First, the H ∞ regulator module.

In this paper, we have investigated energy-efficient and. QoS-constrained load balancing in SoftRAN-based HetNets powered by hybrid energy sources. To this end, ...

Hybrid energy sources, i.e., the grid and green energy sources, can be used to meet the HetNets excessive demand for energy. In such networks, traffic load ...

Hybrid energy sources, i.e., the grid and green energy sources, can be used to meet the HetNets excessive demand for energy. In such networks, traffic load ...

Hybrid energy sources, i.e., the grid and green energy sources, can be used to meet the HetNets excessive demand for energy. In such networks, traffic load ...

A Robust and Resilient Load Balancing Framework for SoftRAN-Based HetNets With Hybrid Energy Supplies. Abstract. Existing System. Proposed System. Architecture.

A Robust and Resilient Load Balancing Framework for SoftRAN-Based HetNets With Hybrid Energy Supplies. IEEE Trans. Netw. Serv. Manag. 17(3): 1403-1417 (2020).

A traffic load balancing framework that strives a balance between network utilities, e.g., the average traffic delivery latency, and the green energy ...

Awad, A. A. M. R. Behiry and E. A. Alrashed, "A Robust and Resilient Load. Balancing Framework for SoftRAN-Based HetNets With Hybrid Energy Supplies," in.

1, HSC20N001 · A Robust and Resilient Load Balancing Framework for SoftRAN-Based HetNets With Hybrid Energy Supplies ; 2, HSC20N002 · Allocation of Resources in ...