MPTCP Tunnel: An Architecture for Aggregating Bandwidth of Heterogeneous Access Networks

Fixed and cellular networks are two typical access networks provided by operators. Fixed access network is widely employed; nevertheless, its bandwidth is sometimes not sufficient enough to meet user bandwidth requirements. Meanwhile, cellular access network owns unique advantages of wider coverage, faster increasing link speed, more flexible deployment, and so forth. Therefore, it is attractive for operators to mitigate the bandwidth shortage by bundling these two. Actually, there have been existing schemes proposed to aggregate the bandwidth of two access networks, whereas they all have their own problems, like packet reordering or extra latency overhead. To address this problem, we design new architecture, MPTCP Tunnel, to aggregate the bandwidth of multiple heterogeneous access networks from the perspective of operators. MPTCP Tunnel uses MPTCP, which solves the reordering problem essentially, to bundle multiple access networks. Besides, MPTCP Tunnel sets up only one MPTCP connection at play which adapts itself to multiple traffic types and TCP flows. Furthermore, MPTCP Tunnel forwards intact IP packets through access networks, maintaining the end-to-end TCP semantics. Experimental results manifest that MPTCP Tunnel can efficiently aggregate the bandwidth of multiple access networks and is more adaptable to the increasing heterogeneity of access networks than existing mechanisms.

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Cloud-integrated wireless-optical broadband access network with survivability

International Journal of Sensors Wireless Communications and Control ◽

10.2174/2210327910666200213121623 ◽

2020 ◽

Vol 10 ◽

Author(s):

Sangita Solanki ◽

Raksha Upadhyay ◽

Uma Rathore Bhatt

Keyword(s):

Access Network ◽

Access Networks ◽

Manhattan Distance ◽

Broadband Access ◽

Optical Access Networks ◽

Component Level ◽

Backup Path ◽

Wireless Router ◽

Path Computation ◽

Broadband Access Network

Cloud-integrated wireless optical broadband (CIW) access networks inheriting advantages of cloud computing, wireless and optical access networks have a broad prospect in the future. Due to failure of components like OLT level, ONU level, link or path failure and cloud component level in CIW, survivability is becoming one of the important issues. In this paper, we have presented cloud-integrated wireless-optical broadband access network with survivability using integer linear programming (ILP) model, to minimize the number of cloud components while providing maximum backup paths. Hence, we have proposed protection through cloud-integrated wireless router to available ONUs (PCIWRAO). So, evaluated the backup path computation. We have considered ONU level failure in which the affected traffic is transferred through wireless routers and cloud component to the available ONUs using Manhattan distance algorithm. Simulation results show different configurations for different number of routers and cloud components illustrating available backup path when ONU fails.

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QoS aware Multi-Path Routing using Link Scheduling Algorithm

International Journal of Sensors Wireless Communications and Control ◽

10.2174/2210327909666191206103424 ◽

2019 ◽

Vol 09 ◽

Author(s):

Satyasrikanth Palle ◽

Shivashankar

Keyword(s):

Cellular Networks ◽

Scheduling Algorithm ◽

Research Work ◽

Scheduling Algorithms ◽

Turnaround Time ◽

Link Scheduling ◽

Spatial Reuse ◽

Mobile Cellular ◽

Simulation Results ◽

End To End

Objective: The demand for Cellular based multimedia services is growing day by day, in order to fulfill such demand the present day cellular networks needs to be upgraded to support excessive capacity calls along with high data accessibility. Analysis of traffic and huge network size could become very challenging issue for the network operators for scheduling the available bandwidth between different users. In the proposed work a novel QoS Aware Multi Path scheduling algorithm for smooth CAC in wireless mobile networks. The performance of the proposed algorithm is assessed and compared with existing scheduling algorithms. The simulation results show that the proposed algorithm outperforms existing CAC algorithms in terms of throughput and delay. The CAC algorithm with scheduling increases end-to-end throughput and decreases end-to-end delay. Methods: The key idea to implement the proposed research work is to adopt spatial reuse concept of wireless sensor networks to mobile cellular networks. Spatial reusability enhances channel reuse when the node pairs are far away and distant. When Src and node b are communicating with each other, the other nodes in the discovered path should be idle without utilizing the channel. Instead the other nodes are able to communicate parallelly the end-to-end throughput can be improved with acceptable delay. Incorporating link scheduling algorithms to this key concept further enhances the end-to-end throughput with in the turnaround time. So, in this research work we have applied spatial reuse concept along with link scheduling algorithm to enhance end-to-end throughput with in turnaround time. The proposed algorithm not only ensures that a connection gets the required bandwidth at each mobile node on its way by scheduling required slots to meet the QoS requirements. By considering the bandwidth requirement of the mobile connections, the CAC module at the BS not only considers the bandwidth requirement but also conforming the constrains of system dealy and jitter are met. Result: To verify the feasibility and effectiveness of our proposed work, with respect to scheduling the simulation results clearly shows the throughput improvement with Call Admission Control. The number of dropped calls is significantly less and successful calls are more with CAC. The percentage of dropped calls is reduced by 9 % and successful calls are improved by 91%. The simulation is also conducted on time constraint and ratio of dropped calls are shown. The total time taken to forward the packets and the ration of dropped calls is less when compared to non CAC. On a whole the CAC with scheduling algorithms out performs existing scheduling algorithms. Conclusion: In this research work we have proposed a novel QoS aware scheduling algorithm that provides QoS in Wireless Cellular Networks using Call Admission Control (CAC). The simulation results show that the end-to-end throughput has been increased by 91% when CAC is used. The proposed algorithm is also compared with existing link scheduling algorithms. The results reveal that CAC with scheduling algorithm can be used in Mobile Cellular Networks in order to reduce packet drop ratio. The algorithm is also used to send the packets within acceptable delay.

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Resource Allocation Based on User Pairing and Subcarrier Matching for Downlink Non-Orthogonal Multiple Access Networks

IEEE/CAA Journal of Automatica Sinica ◽

10.1109/jas.2021.1003886 ◽

2021 ◽

Vol 8 (3) ◽

pp. 679-689

Author(s):

Zhixin Liu ◽

Changjian Liang ◽

Yazhou Yuan ◽

Kit Yan Chan ◽

Xinping Guan

Keyword(s):

Resource Allocation ◽

Multiple Access ◽

Access Networks ◽

User Pairing

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Frequency-Domain Carrier Frequency and Symbol Timing Offsets Estimation for Offset QAM Filter Bank Multicarrier Systems in Uplink of Multiple Access Networks

Wireless Personal Communications ◽

10.1007/s11277-012-0710-7 ◽

2012 ◽

Vol 70 (2) ◽

pp. 601-615 ◽

Cited By ~ 7

Author(s):

Hamid Saeedi-Sourck ◽

Saeed Sadri

Keyword(s):

Frequency Domain ◽

Carrier Frequency ◽

Multiple Access ◽

Filter Bank ◽

Access Networks ◽

Multicarrier Systems ◽

Symbol Timing ◽

Filter Bank Multicarrier

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Introduction to SFDMA multiple access networks and their possible implementation in terrestrial DVB return channels

Proceedings of 8th International Symposium on Personal, Indoor and Mobile Radio Communications - PIMRC '97 ◽

10.1109/pimrc.1997.630905 ◽

2002 ◽

Author(s):

D. Callonnec ◽

D. Pace ◽

D. Castelain

Keyword(s):

Multiple Access ◽

Access Networks

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Sub-Channel Assignment, Power Allocation, and User Scheduling for Non-Orthogonal Multiple Access Networks

IEEE Transactions on Wireless Communications ◽

10.1109/twc.2016.2606100 ◽

2016 ◽

Vol 15 (11) ◽

pp. 7686-7698 ◽

Cited By ~ 141

Author(s):

Boya Di ◽

Lingyang Song ◽

Yonghui Li

Keyword(s):

Power Allocation ◽

Channel Assignment ◽

Multiple Access ◽

Access Networks ◽

User Scheduling

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Nýting ljósleiðara á Íslandi

10.33112/ije.23.2 ◽

2017 ◽

Vol 23 ◽

pp. 32-36

Author(s):

Sæmundur E. Þorsteinsson

Keyword(s):

Mobile Communication ◽

Rural Areas ◽

Communication Systems ◽

Access Network ◽

Access Networks ◽

Optical Fibres ◽

Core Network ◽

Leading Role ◽

Telecommunication Systems ◽

Optical Ring

General deployment of optical fibre technology commenced in the eighties. Its introduction revolutionised the telecommunications arena and has become the foundation of most telecommunication systems in use today. Optical fibres connect continents and countries, are used in core and access networks and for backhauling of mobile communication systems. The internet would barely exist without optical fibres and globalisation would hardly have seen the dawn of light. Three submarine optical cables connect Iceland to the outside world; Farice and Danice connect Iceland to Europe and Greenland Connect to America via Greenland. The optical ring around Iceland constitutes the Icelandic core network. The ring passes by nearly all villages and towns and fibre deployment in the access network has reached an advanced state. Fibre deployment in rural areas has already begun and will presumably be finished in a few years. Iceland plays a leading role in fibre deployment. In this paper, fibre utilisation in Iceland will be described, both in core and access networks. Three different architectures for fibre deployment in the access network will be described. Competition on fibre networks will also be discussed.

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