Handling spatial data in distributed environments

Handling spatial data in distributed environments is an intriguing issue. We consider autonomous sites of an overlay network that are bound to specific spatial information. We assume that each site has partial knowledge of the overlay. Actually, the sites are aware of and can communicate with some other sites, according to the spatial data to which they are bound to. We are interested in routing queries about spatial data in such overlays, solely by exploiting local knowledge on sites, i.e. based on locality and directionality in space. For such a system, we explore the parameters that can make search for any spatial information realizable and efficient. In this work we focus on the management of grid-partitioned space. In such a system there is a necessity for a mechanism that provides even knowledge of space to each site of the overlay. We investigate two different ways to define the directions of grid knowledge on each site and we propose a new distance metric. Moreover, we consider a new locality function that is specifically constructed in order to achieve even knowledge of space towards all directions. Furthermore, we present an experimental study that evaluates the theoretical propositions and verifies the theoretical results.

[1]  David R. Karger,et al.  Chord: A scalable peer-to-peer lookup service for internet applications , 2001, SIGCOMM '01.

[2]  Verena Kantere,et al.  Storing and Indexing Spatial Data in P2P Systems , 2009, IEEE Transactions on Knowledge and Data Engineering.

[3]  Hector Garcia-Molina,et al.  One torus to rule them all: multi-dimensional queries in P2P systems , 2004, WebDB '04.

[4]  Min Cai,et al.  MAAN: A Multi-Attribute Addressable Network for Grid Information Services , 2003, Journal of Grid Computing.

[5]  Seungwoo Kang,et al.  CISS: An Efficient Object Clustering Framework for DHT-Based Peer-to-Peer Applications , 2004, DBISP2P.

[6]  Beng Chin Ooi,et al.  VBI-Tree: A Peer-to-Peer Framework for Supporting Multi-Dimensional Indexing Schemes , 2006, 22nd International Conference on Data Engineering (ICDE'06).

[7]  Shyam Antony,et al.  PRoBe: Multi-dimensional Range Queries in P2P Networks , 2005, WISE.

[8]  Martin Mauve,et al.  A survey on position-based routing in mobile ad hoc networks , 2001, IEEE Netw..

[9]  Aaron Harwood,et al.  Hashing Spatial Content over Peer-to-Peer Networks , 2003 .

[10]  Luís E. T. Rodrigues,et al.  GeoPeer: a location-aware peer-to-peer system , 2004, Third IEEE International Symposium on Network Computing and Applications, 2004. (NCA 2004). Proceedings..

[11]  Manish Parashar,et al.  Flexible information discovery in decentralized distributed systems , 2003, High Performance Distributed Computing, 2003. Proceedings. 12th IEEE International Symposium on.

[12]  Pedro Acevedo Contla,et al.  Estimating Hop Counts in Position Based Routing Schemes for Ad Hoc Networks , 2003, Telecommun. Syst..

[13]  Verena Kantere,et al.  A Study for the Parameters of a Distributed Framework That Handles Spatial Areas , 2007, SSTD.