Sebastian Robitzsch scite author profile

Sebastian Robitzsch

5Publications

35Citation Statements Received

23Citation Statements Given

How they've been cited

132

How they cite others

Affiliations

InterDigital (United Kingdom), University College Dublin, InterDigital (United States)

Publications

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Supporting carrier grade services over wireless mesh networks: The approach of the European FP-7 STREP CARMEN [Very Large Projects]

Azcorra

Banniza²,

Chieng

et al. 2009

IEEE Commun. Mag.

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INTRODUCTIONWireless mesh networks (WMNs) are a very promising technology to provide an easily deployable and cost-efficient solution for access to packet-based services for metropolitan areas with high population densities. Thus, WMNs may be a key technology in future 4G wireless networks and are currently becoming attractive in situations where it is not convenient to deploy wired backhaul connectivity. For example, it is often impractical to deploy wired infrastructure cost effectively or under tight time constraints. This is particularly true if the deployment is only transient in nature. Another key feature of WMNs is that unlike wireless multihop relay networks, WMNs are not restricted to tree-shaped topologies rooted at the gateway to the wired network and hence do not suffer from the same performance bottlenecks. Instead, any mesh node may communicate with any other one over multiple paths, allowing more efficient utilization of network resources. In contrast to ad hoc networks, WMNs are operated by a single entity, and their components have far fewer restrictions in terms of energy, resilience, and processing power.The main aim of the Carrier Grade Mesh Networks (CARMEN) project is to design WMN architecture capable of delivering carrier grade triple-play services at significantly lower capital and operational expenditures than comparable wired backhaul networks. There is a particular emphasis on providing a solution for both fast deployment and transient usage scenarios. This goal presents a number of significant research challenges. One key challenge is to reduce the investment required to deploy and operate WMNs. This will be achieved by applying advanced self-configuration and management techniques in all stages from planning to deployment and operation. Currently neither coordinated (e.g., WiMAX-like) nor uncoordinated (e.g., WiFi-like) medium access control (MAC) technologies use wireless resources efficiently for multihop mesh scenarios, making it difficult to provide any guaranteed quality of service (QoS) levels. Therefore, methods for provisioning the QoS required by carrier grade services over coordinated or uncoordinated wireless MAC protocols are a further research topic. In order to develop a robust and long lasting solution, the CARMEN architecture will not be bound to a specific radio technology. Rather, an abstract interface will be defined that can support heterogeneous radio technologies within CARMEN systems.Although WMNs have been the subject of several research initiatives (e.g., [2][3][4]) over the last few years, some of which have been developed into products, current WMN solutions fail to meet the stringent quality and reliability requirements of service providers. THE CARMEN PROJECTThe CARMEN Project is a three-year project partially funded by the EU's 7th Research Framework Program and has a total budget of approximately 6 million. The CARMEN project focuses on developing a heterogeneous mesh backhaul solution to provide carrier grade services with greater flexibility and at...

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An analysis of the Received Signal Strength accuracy in 802.11a networks using Atheros chipsets: A solution towards self configuration

Robitzsch

Murphy

Fitzpatrick³

2011

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Multilevel pattern mining architecture for automatic network monitoring in heterogeneous wireless communication networks

Keeney

Robitzsch

et al. 2016

China Commun.

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A recommender system architecture for predictive telecom network management

et al. 2015

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IP Over ICN Goes Live

Xylomenos

Thomas

Vasilakos

et al. 2018

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Information-centric networking (ICN) has long been advocating for radical changes to the IP-based Internet. However, the upgrade challenges that this entails have hindered ICN adoption. To break this loop, the POINT project proposed a hybrid, IP-over-ICN, architecture: IP networks are preserved at the edge, connected to each other over an ICN core. This exploits the key benefits of ICN, enabling individual network operators to improve the performance of their IP-based services, without changing the rest of the Internet. We provide an overview of POINT and outline how it improves upon IP in terms of performance and resilience. Our focus is on the successful trial of the POINT prototype in a production network, where real users operated actual IP-based applications.

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