Difference between revisions of "DTN"
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== Part 2: - DTN Architecture and Bundle Protocol == |
== Part 2: - DTN Architecture and Bundle Protocol == |
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+ | * Generalized Architecture |
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+ | * Space communications as a customer |
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+ | * Bundle transport without permanent end-to-end paths |
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+ | * Store-and forward |
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+ | * Late name resolution |
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+ | * Custody transfer |
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+ | * Convergence layer concept |
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+ | * Routing with different levels of knowledge of network topology, offered load and connectivity graphs over time |
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- They are also dynamic |
- They are also dynamic |
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+ | == In research ? == |
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+ | http://www.kevinfall.com/seipage/papers/p27-fall.pdf |
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+ | http://www.sail-project.eu |
Revision as of 15:27, 14 April 2016
Delay Tolerant Networks
Part 1: Introduction In communication field, networks become more popular and routing protocols face multiple challenges. They have first to minimize delay then maximize throughput.
- Internet vs. DTN DTN routing involves message replication. They are therefore useful to operate over long distances as for telecommunications space 1 for which latency reaches sometimes hours or even days On another hand we have Internet which is based on packet forwarding.
Part 2: - DTN Architecture and Bundle Protocol
- Generalized Architecture
- Space communications as a customer
- Bundle transport without permanent end-to-end paths
- Store-and forward
- Late name resolution
- Custody transfer
- Convergence layer concept
- Routing with different levels of knowledge of network topology, offered load and connectivity graphs over time
Part 3: Application Areas
- Opportunistic/social networking
- VANETs
- Habitat monitoring
- DTN-based Social Network
- Low cost communication solutions
Part 4: Conclusion
Some of characteristics of Delay Tolerant Networks are:
- No end-to-end path
- Intermittent connectivity
- Long delay
- They are also dynamic