Angels in the Cloud: A Peer-Assisted Bulk-Synchronous Content Distribution Service

Sweha, Raymond; Ishakian, Vatche; Bestavros, Azer

doi:10.1109/cloud.2011.84

Cited by 27 publications

(14 citation statements)

References 13 publications

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“…Using optimization theory, an uplink-sharing fluid model whose goal is to find the optimal scheduling (piece selection) for peer-to-peer networks has been investigated in [8] and used in [32] and [33]. These approaches focus either on the end game mode, where leechers are missing their last pieces, or on the analysis of the minimum distribution time.…”

Section: B Scheduling Churn and Transient Phasesmentioning

confidence: 99%

On the impact of seed scheduling in peer-to-peer networks

Esposito¹,

Matta²,

Bera³

et al. 2011

Computer Networks

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Section: B Scheduling Churn and Transient Phasesmentioning

confidence: 99%

On the impact of seed scheduling in peer-to-peer networks

Esposito¹,

Matta²,

Bera³

et al. 2011

Computer Networks

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“…There is a tradeoff between these two properties: it is possible to increase the playback continuity by adopting larger stream buffers, but at the expense of delay. On the other hand, improving playback delay requires that no bottlenecks are present in either the upload bandwidth of the media source and the aggregated upload bandwidth of all peers in the swarm, i.e., the peers forming the P2P streaming overlay [8], [9].…”

Section: Introductionmentioning

confidence: 99%

CLive: Cloud-assisted P2P live streaming

Payberah

Kavalionak

Kumaresan

et al. 2012

2012 IEEE 12th International Conference on Peer-to-Peer Computing (P2P)

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Abstract-Peer-to-peer (P2P) video streaming is an emerging technology that reduces the barrier to stream live events over the Internet. Unfortunately, satisfying soft real-time constraints on the delay between the generation of the stream and its actual delivery to users is still a challenging problem. Bottlenecks in the available upload bandwidth, both at the media source and inside the overlay network, may limit the quality of service (QoS) experienced by users. A potential solution for this problem is assisting the P2P streaming network by a cloud computing infrastructure to guarantee a minimum level of QoS. In such approach, rented cloud resources (helpers) are added on demand to the overlay, to increase the amount of total available bandwidth and the probability of receiving the video on time. Hence, the problem to be solved becomes minimizing the economical cost, provided that a set of constraints on QoS is satisfied. The main contribution of this paper is CLIVE, a cloud-assisted P2P live streaming system that demonstrates the feasibility of these ideas. CLIVE estimates the available capacity in the system through a gossip-based aggregation protocol and provisions the required resources from the cloud to guarantee a given level of QoS at low cost. We perform extensive simulations and evaluate CLIVE using large-scale experiments under dynamic realistic settings.

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“…Another related line of research is peer-assisted [13] storage systems that combine Cloud and peer resources. For example, in [14], authors present a hybrid architecture where resources at peers (spare bandwidth, storage space) are complemented with temporal usage of Cloud storage services.…”

Section: Related Workmentioning

confidence: 99%

FriendBox: A Hybrid F2F Personal Storage Application

Gracia-Tinedo

S'nchez-Artigas

Moreno-Martinez

et al. 2012

2012 IEEE Fifth International Conference on Cloud Computing

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Abstract-Personal storage is a mainstream service used by millions of users. Among the existing alternatives, Friend-toFriend (F2F) systems are nowadays an interesting research topic aimed to leverage a secure and private off-site storage service.However, the specific characteristics of F2F storage systems (reduced node degree, correlated availabilities) represent a hard obstacle to their performance. Actually, it is extremely difficult for a F2F system to guarantee an acceptable storage service quality in terms of transference times and data availability to end-users. In this landscape, we propose to resort to the Cloud for improving the storage service of a F2F system.We present FriendBox: a hybrid F2F personal storage system. FriendBox is the first F2F system that efficiently combines resources of trusted friends with Cloud storage for improving the service quality achievable by pure F2F systems.We evaluated FriendBox through a real deployment in our university campus. We demonstrated that FriendBox achieves high transfer performance and flexible user-defined data availability guarantees. Furthermore, we analyzed the costs of FriendBox demonstrating its economic feasibility.

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Angels in the Cloud: A Peer-Assisted Bulk-Synchronous Content Distribution Service

Cited by 27 publications

References 13 publications

On the impact of seed scheduling in peer-to-peer networks

On the impact of seed scheduling in peer-to-peer networks

CLive: Cloud-assisted P2P live streaming

FriendBox: A Hybrid F2F Personal Storage Application

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