DocumentCode
2784564
Title
FriendBox: A Hybrid F2F Personal Storage Application
Author
Gracia-Tinedo, Raúl ; Sanchez-Artigas, Marc ; Moreno-Martínez, Adrián ; García-López, Pedro
Author_Institution
Univ. Rovira i Virgili, Tarragona, Spain
fYear
2012
fDate
24-29 June 2012
Firstpage
131
Lastpage
138
Abstract
Personal storage is a mainstream service used by millions of users. Among the existing alternatives, Friend-to-Friend (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.
Keywords
cloud computing; peer-to-peer computing; quality of service; security of data; storage management; Friend-to-Friend system; FriendBox; acceptable storage service quality; cloud computing; cloud storage; correlated availability; economic feasibility; end-user data availability; flexible user-defined data availability guarantee; hybrid F2F personal storage application; private off-site storage service; reduced node degree; secure off-site storage service; transfer performance; transference time; trusted friend resource; university campus; Availability; Cloud computing; Correlation; Facebook; Redundancy; Schedules; Friend-to-friend (F2F); availability correlations; data availability; data transfer scheduling; storage systems;
fLanguage
English
Publisher
ieee
Conference_Titel
Cloud Computing (CLOUD), 2012 IEEE 5th International Conference on
Conference_Location
Honolulu, HI
ISSN
2159-6182
Print_ISBN
978-1-4673-2892-0
Type
conf
DOI
10.1109/CLOUD.2012.20
Filename
6253498
Link To Document