Abstract
As the global data traffic has significantly increased in the recent year, the ultra-dense deployment of cellular networks (UDN) is being proposed as one of the key technologies in the fifth-generation mobile communications system (5G) to provide a much higher density of radio resource. The densification of small base stations could introduce much higher inter-cell interference and lead user to meet the edge of coverage more frequently. As the current handover scheme was originally proposed for macro BS, it could cause serious handover issues in UDN i.e. ping-pong handover, handover failures and frequent handover. In order to address these handover challenges and provide a high quality of service (QoS) to the user in UDN. This paper proposed a novel handover scheme, which integrates both advantages of fuzzy logic and multiple attributes decision algorithms (MADM) to ensure handover process be triggered at the right time and connection be switched to the optimal neighbouring BS. To further enhance the performance of the proposed scheme, this paper also adopts the subtractive clustering technique by using historical data to define the optimal membership functions within the fuzzy system. Performance results show that the proposed handover scheme outperforms traditional approaches and can significantly minimise the number of handovers and the ping-pong handover while maintaining QoS at a relatively high level.
Highlights
The global mobile data traffic has significantly increased in recent year
In the A3 event, the user equipment (UE) will request a handover when one of the resources management (RRM) decision attributes at the neighbouring base stations (BSs), such as reference signal receiving power (RSRP) or signal to interference and noise ratio (SINR) is superior to the serving BS
The result shows that the proposed adaptive fuzzy controller can effectivity generate and adjust fuzzy membership function, which can reduce the number of handovers, ping-pong ratio, and call drop ratio effectively in the different application scenarios
Summary
The global mobile data traffic has significantly increased in recent year. As estimated by Cisco [1], the monthly global mobile data traffic will be 77 exabytes by 2022, and annual traffic will reach almost one zettabyte. Reference [13] shows the adaptive handover triggering mechanisms by combining fuzzy logic with neuro networks In this approach, the subtractive clustering is used to initialise membership functions, which is tuned by using artificial neuro network corresponds to the changes in the mobile environment. The result shows that the proposed adaptive fuzzy controller can effectivity generate and adjust fuzzy membership function, which can reduce the number of handovers, ping-pong ratio, and call drop ratio effectively in the different application scenarios This approach cannot deal with too many inputs as it will compromise the reliability of the algorithm. Apart from triggering handover process at the right time, the targeted BS needs to be carefully selected to ensure guaranteed QoS At present, this is usually done by using the multiple attributes decision making (MADM) approach.
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