Geographic routing
Geographic routing (also called georouting or position-based routing) is a routing principle that relies on geographic position information. It is mainly proposed for wireless networks and based on the idea that the source sends a message to the geographic location of the destination instead of using the network address. The idea of using position information for routing was first proposed in the 1980s in the area of packet radio networks [1] and interconnection networks.[2] Geographic routing requires that each node can determine its own location and that the source is aware of the location of the destination. With this information a message can be routed to the destination without knowledge of the network topology or a prior route discovery.
There are various approaches, such as single-path, multi-path and flooding-based strategies (see [3] for a survey). Most single-path strategies rely on two techniques: greedy forwarding and face routing. Greedy forwarding tries to bring the message closer to the destination in each step using only local information. Thus, each node forwards the message to the neighbor that is most suitable from a local point of view. The most suitable neighbor can be the one who minimizes the distance to the destination in each step (Greedy). Alternatively, one can consider another notion of progress, namely the projected distance on the source-destination-line (MFR, NFP), or the minimum angle between neighbor and destination (Compass Routing). Not all of these strategies are loop-free, i.e. a message can circulate among nodes in a certain constellation. It is known that the basic greedy strategy and MFR are loop free, while NFP and Compass Routing are not .[4]
Greedy forwarding can lead into a dead end, where there is no neighbor closer to the destination. Then, face routing helps to recover from that situation and find a path to another node, where greedy forwarding can be resumed. A recovery strategy such as face routing is necessary to assure that a message can be delivered to the destination. The combination of greedy forwarding and face routing was first proposed in 1999 under the name GFG (Greedy-Face-Greedy).[5] It guarantees delivery in the so-called unit disk graph network model. Various variants, which were proposed later [6] , also for non-unit disk graphs, are based on the principles of GFG .[7]
Although originally developed as a routing scheme that uses the physical positions of each node, geographic routing algorithms have also been applied to networks in which each node is associated with a point in a virtual space, unrelated to its physical position. The process of finding a set of virtual positions for the nodes of a network such that geographic routing using these positions is guaranteed to succeed is called greedy embedding.[8]
References
- ↑ Takagi, H.; Kleinrock, L. (March 1984). "Optimal transmission ranges for randomly distributed packet radio terminals". IEEE Transactions on Communications 32 (3): 246–257. doi:10.1109/TCOM.1984.1096061.
- ↑ Finn, Gregory G. (March 1987). "Routing and Addressing Problems in Large Metropolitan-Scale Internetworks" (PDF). University of Southern California, ISI/RR-87-180.
- ↑ Stojmenovic, Ivan (2002). "Position based routing in ad hoc networks". IEEE Communications Magazine 40 (7): 128–134. doi:10.1109/MCOM.2002.1018018.
- ↑ Stojmenovic, Ivan; Lin, Xu (2001). "Loop-free hybrid single-path/flooding routing algorithms with guaranteed delivery for wireless networks". IEEE Transactions on Parallel and Distributed Systems 12 (10): 1023–1032. doi:10.1109/71.963415.
- ↑ Bose, P.; Morin, P.; Stojmenovic, I.; Urrutia, J. (1999). "Routing with guaranteed delivery in ad hoc wireless networks". Proc. of the 3rd international workshop on discrete algorithms and methods for mobile computing and communications (DIALM '99). pp. 48–55. doi:10.1145/313239.313282. Cite uses deprecated parameter
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(help) - ↑ Djenouri, Djamel; Balasingham, Ilangko (2011). "Traffic-Differentiation-Based Modular QoS Localized Routing for Wireless Sensor Networks". IEEE Transactions on Mobile Computing 10 (06): 797–809. doi:10.1109/TMC.2010.212.
- ↑ Ruehrup, Stefan (2009). "Theory and Practice of Geographic Routing". In Liu, Chu, Leung. (PDF). Ad Hoc and Sensor Wireless Networks: Architectures, Algorithms and Protocols. Bentham Science http://archive.cone.informatik.uni-freiburg.de/people/ruehrup/georouting-chapter-draft.pdf. Missing or empty
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(help) - ↑ Rao, Ananth; Ratnasamy, Sylvia; Papadimitriou, Christos H.; Shenker, Scott; Stoica, Ion (2003), "Geographic routing without location information", Proc. 9th ACM Mobile Computing and Networking (MobiCom), pp. 96–108.
See also
- List of ad-hoc routing protocols
- Backpressure Routing
- MAC for Geographic Routing