Title :
NanoPeer networks and P2P worlds
Author :
Triantafillou, P. ; Ntarmos, N. ; Nikoletseas, S. ; Spirakis, P.
Author_Institution :
Comput. Technol. Inst., Patras, Greece
Abstract :
We present the NanoPeers architecture paradigm, a peer-to-peer network of lightweight devices, lacking all or most of the capabilities of their computer-world counterparts. We identify the problems arising when we apply current routing and searching methods to this nanoworld, and present some initial solutions, using a case study of a sensor network instance; Smart Dust. Furthermore, we propose the P2P Worlds framework as a hybrid P2P architecture paradigm, consisting of cooperating layers of P2P networks, populated by computing entities with escalating capabilities. Our position is that: (i) experience gained through research and experimentation in the field of P2P computing, can be indispensable when moving down the stair of computing capabilities, and that (ii) the proposed framework can be the basis of numerous real-world applications, opening up several challenging research problems.
Keywords :
communication complexity; message passing; resource allocation; routing protocols; ubiquitous computing; wireless sensor networks; NanoPeer networks architecture; P2P computing; Smart Dust system; communication complexity; hybrid P2P architecture paradigm; message passing; peer-to-peer network; resource sharing; routing protocols; sensor network instance; ubiquitous computing; wireless sensor networks; Application software; Authentication; Computer architecture; Computer networks; Indexing; Intelligent sensors; Nanoscale devices; Peer to peer computing; Research and development; Routing;
Conference_Titel :
Peer-to-Peer Computing, 2003. (P2P 2003). Proceedings. Third International Conference on
Print_ISBN :
0-7695-2023-5
DOI :
10.1109/PTP.2003.1231502
