Abstract
Reducing energy consumption of mobile communication networks has gained significant attentions since it takes a major part of the total energy consumption of information and communication technology (ICT). In this paper, we consider 5G networks with heterogeneous macro cells and small cells, where data and control planes are separated. We consider two types of data traffic, i.e., low rate data traffic and high rate data traffic. In basic separation architecture, a macro cell base station (MBS) manages control signals, while a small cell base station (SBS) manages both low rate data traffic and high rate data traffic. In the considered modified separation architecture, an MBS manages control signals and low rate data traffic, while an SBS manages high rate data traffic. Then, an efficient energy saving scheme for base stations (BSs) is proposed, where the state of a BS is determined depending on the number of user equipments (UEs) that request high rate data traffic and the number of UEs that exist under the overlapping areas commonly covered by the considered BS and the neighbor BSs. We formulate an optimization problem for the proposed energy saving scheme and obtain the solution using particle swarm optimization (PSO). Numerical results show that the proposed energy saving scheme in the modified separated network architecture has better energy efficiency compared to the conventional energy saving schemes in both basic and modified separated network architectures. Also, the proposed energy saving scheme has lower aggregate delay.
Highlights
Ever increasing energy consumption is one of the important issues related to the problem of global warming [1] and reducing the energy consumption of mobile communication networks has gained significant attentions since it takes a major part of the total energy consumption of information and communication technology (ICT)
We propose an efficient energy saving scheme for 5G networks with separated control and data planes, where the state of a base stations (BSs) is determined an efficient energy saving scheme for BSs is proposed, where the state of a BS is determined depending on the number of user equipments (UEs) that request high rate data traffic and the number of UEs that exist under the overlapping areas commonly covered by the considered BS and the neighbor BSs
Ever-increasing energy consumption is one of the most important issues related to the problem of global warming and the energy consumption of mobile communication networks has drawn of global warming and the energy consumption of mobile communication networks has drawn much attention since it takes a significant part of the total energy consumption of ICT
Summary
Ever increasing energy consumption is one of the important issues related to the problem of global warming [1] and reducing the energy consumption of mobile communication networks has gained significant attentions since it takes a major part of the total energy consumption of information and communication technology (ICT). [11], the authors proposed three schemes, i.e., continuous, and load In and increase thethe energy efficiency of cell the total network by reducing theof energy consumption of BSs with state should accommodate the coverage and cooperate with nearby schemes. In [22], the on/off states of small cell BSs are controlled based on two uniform and non-uniform distributions of UEs. In [23,24,25], the authors analyze the energy efficiency of BSs in heterogeneous networks shared by multi-operators. In [24], the authors propose a cooperative BS switching off scheme, where BSs are turned off when its traffic load is low and UEs served by them can be covered by BSs operated by other mobile network operators. In telecommunication are covered extensively, and the work in [40] deals with optimization problems
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