Book Chapter10.1007/11424826_83
Position based handover control method
Jongchan Lee,Sok-Pal Cho,Hong-jin Kim +2 more
- 09 May 2005
- pp 781-788
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TL;DR: This paper proposes a new handover setup process is done in advance before a handover request by predicting the handover cell based on mobile terminal’s current position and moving direction, and shows that the proposed method provides a better performance than the conventional method.
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Abstract: It is widely accepted that the coverage with high user densities can only be achieved with small cell such as micro- and pico-cell. The smaller cell size causes frequent handovers between cells and a decrease in the permissible handover processing delay. This may result in the handover failure, in addition to the loss of some packets during the handover. In these cases, re-transmission is needed in order to compensate errors, which triggers a rapid degradation of throughput. In this paper, we propose a new handover scheme in the next generation mobile communication systems, in which the handover setup process is done in advance before a handover request by predicting the handover cell based on mobile terminal’s current position and moving direction. Simulation is focused on the handover failure rate and packet loss rate. The simulation results show that our proposed method provides a better performance than the conventional method.
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Citations
Fast and Secure Handoffs for V2I Communication in Smart City Wi-Fi Deployment
Pranav Kumar Singh,Subhrendu Chattopadhyay,Pradeepkumar Bhale,Sukumar Nandi +3 more
- 11 Jan 2018
TL;DR: The proposed mobility aware background scanning mechanism (AdBack) significantly outperforms the existing mechanisms in terms of handover latency, packet drop rates, and throughput, and experimental results show that amalgamation of AdBack and existing fast re-authentication can improve connectivity for V2I communication in a smart city.
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Handover Algorithms in LTE Networks for Massive Means of Transport
Euler Adrián Trejo Narváez,Claudia Milena Hernández Bonilla +1 more
- 01 Jul 2018
TL;DR: The traspaso en LTE se presenta cuando un equipo de la cobertura de una celda a la de otra, un proceso in which se debe asegurar que el usuario no vea interrumpida su ======¯¯¯¯¯¯¯¯sension, como efecto of ese cambio de celda as discussed by the authors.
Positioning Based Intra-Frequency Handover in Indoor Cellular Network for Ultra Reliable Communications Assisted by Radio Maps
Sergio Lembo,Seppo Horsmanheimo,Matti Laukkanen +2 more
- 01 Oct 2019
TL;DR: With one of the proposed methods, which implements a neural network, the number of handovers performed along the routes of the robot is significantly reduced, allowing to save resources, and scale up the use of simultaneous transmissions, which are needed to minimize handover setup times, making possible ultra reliable communications in cellular networks.
3
Position Aware Vertical Handoff Decision Algorithm in Heterogeneous Wireless Networks
Feng He,Furong Wang +1 more
- 18 Nov 2008
TL;DR: This paper presents a new position aware vertical handoff decision algorithm (PAHO), which is completely implemented by MT alone, no needing any assistance from BS, and can be adopted by horizontal handoff also.
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.
References
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DiffServ resource allocation for fast handoff in wireless mobile Internet
Yu Cheng,Weihua Zhuang +1 more
TL;DR: A DiffServ resource allocation architecture is proposed for the evolving wireless mobile Internet, which supports fast handoff by significantly reducing mobility management signaling and an adaptive assured service is presented for the stream class of traffic, where resource allocation is adjusted according to the network condition.
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A fast handoff scheme for wireless networks
Cheng Lin Tan,Kin Mun Lye,Stephen Pink +2 more
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TL;DR: A fast and efficient handoff scheme to handle the movements of mobile nodes among small wireless cells at the fringes of the Internet that uses multicast as the packet forwarding mechanism to deliver packets to multiple base stations within the vicinity of the mobile node to achieve fast handoff performance.
Position leverage smooth handover algorithm for mobile ip
Mustafa Ergen,Sinem Coleri,Baris Dundar,Anuj Puri,Jean Walrand,Pravin Varaiya +5 more
- 01 Aug 2002
TL;DR: A fast intra-domain and inter-domain handoff scheme using the location of routers to meet the delay and packet loss requirements of real-time services and achieves an intelligent and dynamic neighborhood discovery and avoids the use of multicast addresses in intra- domain handoff.