Proceedings ArticleDOI
Advanced handover techniques in LTE- Advanced system
Ibraheem Shayea,Mahamod Ismail,Rosdiadee Nordin +2 more
- pp 74-79
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TLDR
An advanced handover technique is proposed by combining FSHO, SSHO, and MCHO techniques that can enhance the system performance in term of latency, outage probability and handover reliability especially at cell boundary.Abstract:
There are always increasing demands of high speed data applications in wireless systems with fast and seamless access to voice and multimedia services and QoS guaranteed such as in Fourth Generation (4G) Long Term Evolution (LTE)-Advanced system. Moreover, as mobility speeds support is expected to reach up to 500 km/h, the handover will occur more frequent, thus the system performance in terms of delay and packet loss will be degraded. Hence, efficient radio resource management including handover techniques, load balancing and interference management are essential. In this paper, we present a comprehensive survey on the advanced handover techniques, requirements and features for LTE-Advanced system. Also, advanced handover techniques are highlighted and discussed such as Fractional Soft Handover (FSHO), Semi Soft Handover (SSHO) and multi-carrier handover (MCHO) that incorporate backward compatibility to the existing system. Meanwhile, FSHO technique based on CA with 5CCs are investigated in term of cell throughput and user's handover numbers. The result shows that, FSHO with 5 CCs improves LTE-Advanced system in term of cell throughput and numbers of user handover better than Non-CA. Consequently, the existing handover techniques that have been proposed have several advantages, but they are not sufficient to solve hard handover problems. Therefore, a new handover technique is essential required to support fast and seamless handover in LTE-Advanced system. As a result, an advanced handover technique is proposed by combining FSHO, SSHO, and MCHO techniques that can enhance the system performance in term of latency, outage probability and handover reliability especially at cell boundary. Also, the expected output from this hybrid technique can reduce transmission overhead on the network cells by balancing the traffic load in the network cells.read more
Citations
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Handover in LTE-advanced wireless networks: state of art and survey of decision algorithm
TL;DR: The control plane structure of LTE/LTE-A is reviewed and a comprehensive discussion of handover procedures such as the phases, techniques, requirements, features, and challenges involved are presented.
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Handover Management of Drones in Future Mobile Networks: 6G Networks
Joana Angjo,Ibraheem Shayea,Mustafa Ergen,Hafizal Mohamad,Abdulraqeb Alhammadi,Yousef Ibrahim Daradkeh +5 more
TL;DR: In this paper, the authors provide an overview on the handover management for connected drones in future mobile networks, with a special focus on the drone handover process and discuss specific solutions for addressing possible problems.
Proceedings ArticleDOI
An Intelligent handover process algorithm in 5G networks: The use case of mobile cameras for environmental surveillance
TL;DR: An intelligent handover algorithm model is proposed to decide on the handover process and the load balance among the network devices in the coverage area to provide better QoS for ultra high definition (UHD) mobile users in the handoff process.
References
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Journal ArticleDOI
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TL;DR: It is demonstrated that LTE performance does not fulfil the technical requirements established by ITU-R to classify one radio access technology as a member of the IMT-Advanced family of standards.
Journal ArticleDOI
Advanced handover schemes in IMT-advanced systems [WiMAX/LTE Update]
TL;DR: The state-of-the-art handover schemes considering various deployment scenarios in IMTAdvanced candidate systems with a focus on IEEE 802.16m based next-generation WiMAX networks and 3GPP LTE-Advanced are presented.
Proceedings ArticleDOI
Handover in the 3GPP long term evolution (LTE) systems
Jihai Han,Bingyang Wu +1 more
TL;DR: An overview of the LTE intra-access handover procedure, the simulation approach, and several latest handover algorithms which can enhance performance of the Lollipop systems are introduced are given.
Proceedings ArticleDOI
A Fractional Soft Handover Scheme for 3GPP LTE-Advanced System
TL;DR: The theoretical analysis and simulation results show that the proposed fractional soft handover scheme not only attains the lowest handover outage probability, but also improve the reliability of VoIP service.