Steluta Gheorghiu scite author profile

Steluta Gheorghiu

4Publications

73Citation Statements Received

75Citation Statements Given

How they've been cited

130

How they cite others

Affiliations

i2CAT, Telefonica Research and Development, Universitat Politècnica de Catalunya

Publications

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Multipath code casting for wireless mesh networks

Gkantsidis

Key

et al. 2007

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Designing high throughput wireless mesh networks involves solving interrelated scheduling, routing, and interference problems. In this paper, we exploit the broadcast properties and the path diversity of wireless meshes to implement an efficient multipath routing protocol, Multipath Code Casting (MC 2 ).In contrast to prior work in opportunistic routing, which required strong coordination across nodes to prevent information repetition, our design is based on network coding and does not require node coordination. Moreover, it provides a unified framework to deal with data transmissions across multiple and, often, unreliable transmission paths. Our design also includes a novel rate-scheduling algorithm that guarantees (proportionally) fair allocation of resources across multiple (multipath) flows, ensures that data use the paths with the best performance, and prevents information overflow by controlling the data rate across each path. Using simulations and a prototype implementation, we show that our algorithms provide over 30% performance improvement compared to traditional singlepath approaches when applied to realistic and other exemplar topologies; in some scenarios, our approach can even double the throughput. Our approach also performs better than 20% compared to other multipath routing schemes.

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Multipath TCP with Network Coding for Wireless Mesh Networks

Gheorghiu

Toledo

Rodríguez

2010

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In wireless multihop networks, techniques such as multipath, local retransmissions and network coding have been successfully used to increase throughput and reduce losses. However, while these techniques improve forwarding performance for UDP, they often introduce side effects such as packet reordering and delay that heavily affect TCP traffic. In this paper we introduce CoMP, a network coding multipath forwarding scheme that improves the reliability and the performance of TCP sessions in wireless mesh networks. CoMP exploits the wireless mesh path diversity using network coding, performs congestion control and uses a credit-based method to control the rate at which linear combinations are transmitted. CoMP uses a simple algorithm to estimate losses and to send redundant linear combinations in order to maintain the decoding delay at a minimum and to prevent TCP timeouts and retransmissions. We evaluate CoMP through extensive simulations and compare it to state-of-the-art protocols. We show that CoMP not only achieves a higher throughput, but also is more efficient than existing protocols, making TCP sessions feasible for wireless mesh networks even under heavy losses.

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Secure network coding for multi-resolution wireless video streaming

Lima

Gheorghiu

Barros

et al. 2010

IEEE J. Select. Areas Commun.

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Abstract-Emerging practical schemes indicate that algebraic mixing of different packets by means of random linear network coding can increase the throughput and robustness of streaming services over wireless networks. However, concerns with the security of wireless video, in particular when only some of the users are entitled to the highest quality, have uncovered the need for a network coding scheme capable of ensuring different levels of confidentiality under stringent complexity requirements. We show that the triple goal of hierarchical fidelity levels, robustness against wireless packet loss and efficient security can be achieved by exploiting the algebraic structure of network coding. The key idea is to limit the encryption operations to a critical set of network coding coefficients in combination with multi-resolution video coding. Our contributions include an information-theoretic security analysis of the proposed scheme, a basic system architecture for hierarchical wireless video with network coding and simulation results.

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On the Performance of Network Coding in Multi-Resolution Wireless Video Streaming

Gheorghiu

Lima

Toledo

et al. 2010

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