Peer-to-Peer: Harnessing the Power of Disruptive Technologies
Peer-to-Peer: Harnessing the Power of Disruptive Technologies
JXTA: Java P2P Programming
Peer-to-Peer Mobile Network Architecture
P2P '01 Proceedings of the First International Conference on Peer-to-Peer Computing
P2P Platform Implementation on PDAs Organizing Ad Hoc Wireless Network
SAINT-W '04 Proceedings of the 2004 Symposium on Applications and the Internet-Workshops (SAINT 2004 Workshops)
Transport layer identification of P2P traffic
Proceedings of the 4th ACM SIGCOMM conference on Internet measurement
Peer to peer video streaming in Bluetooth overlays
Multimedia Tools and Applications
Mobile P2P Web Services using SIP
Mobile Information Systems - Improving Quality of Service in Mobile Information Systems, Services and Networks
NAT Traversal for Pure P2P e-Learning System
ICIW '08 Proceedings of the 2008 Third International Conference on Internet and Web Applications and Services
Jxta-Overlay: An interface for efficient peer selection in P2P JXTA-based systems
Computer Standards & Interfaces
Improvement of JXTA protocols for supporting reliable distributed applications in P2P systems
NBiS'07 Proceedings of the 1st international conference on Network-based information systems
Multi-agent system technology for p2p applications on small portable devices
AP2PC'04 Proceedings of the Third international conference on Agents and Peer-to-Peer Computing
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This work is motivated by the need to develop decentralized P2P approaches for controlling end-devices in a wide-area network without changing the network security policy. Much of current research work on P2P systems is devoted to P2P networks of standard peers such as PCs. Due to improvements of connections capabilities of mobile devices and end-devices, there is an increasing interest to design, implement and deploy full featured P2P networks that integrate standard peers, mobile devices and end-devices. In this paper, we use the JXTA-Overlay for the control of end-devices and e-learning in a P2P network. We considered as end-devices the smart box (which is used for stimulating the learners in our implemented P2P e-learning system), robot, and room lightening. We also considered the control of a mobile car in order to prove the applicability of our approach in wireless environment. The proposed approach, due to the capabilities of JXTA protocols to overcome firewalls and NATs, is able to control devices without changing network security policies. We evaluate the proposed system by many experiments and have shown that the proposed system has a good performance and can be used successfully for the control of end-devices and in e-learning.