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E-raamat: Delay Tolerant Networks

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Delay Tolerant NetworksSuurem pilt
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This brief presents emerging and promising communication methods for network reliability via delay tolerant networks (DTNs). Different from traditional networks, DTNs possess unique features, such as long latency and unstable network topology. As a result, DTNs can be widely applied to critical applications, such as space communications, disaster rescue, and battlefield communications. The brief provides a complete investigation of DTNs and their current applications, from an overview to the latest development in the area. The core issue of data forward in DTNs is tackled, including the importance of social characteristics, which is an essential feature if the mobile devices are used for human communication. Security and privacy issues in DTNs are discussed, and future work is also discussed.
1 Introduction
1(8)
1.1 Background
1(3)
1.1.1 Definition and Characteristics of Delay Tolerant Networks
1(2)
1.1.2 Data Forwarding in Delay Tolerant Networks
3(1)
1.1.3 Privacy Issue in Delay Tolerant Networks
3(1)
1.2 Overview of the Monograph
4(2)
1.2.1 Applications Based on Delay Tolerant Networks
4(1)
1.2.2 Data Forwarding Performance Improvement in Delay Tolerant Networks
4(1)
1.2.3 Privacy Protected Data Forwarding in Delay Tolerant Networks
5(1)
1.3 Organization of the Monograph
6(3)
References
7(2)
2 Delay Tolerant Networks Based Applications
9(10)
2.1 Digital Communication for Rural Areas
9(3)
2.1.1 DakNet
9(1)
2.1.2 TrainNet
10(1)
2.1.3 KioskNet
11(1)
2.2 Personal/Wildlife Communications
12(1)
2.2.1 Pollen
12(1)
2.2.2 Body Area Networks
12(1)
2.2.3 ZebraNet
13(1)
2.3 Battlefield Communications
13(2)
2.3.1 DTN for Military Missions
13(1)
2.3.2 DTN for Airborne Networks
14(1)
2.4 Disaster Rescue and Environment Monitoring Communications
15(4)
2.4.1 DTN for Disaster Response Communications
15(1)
2.4.2 Sensor Network with Delay Tolerance
16(1)
References
16(3)
3 Routing Protocols in Delay Tolerant Networks
19(16)
3.1 Epidemic Based Routing Protocols
19(4)
3.1.1 Pure Epidemic
19(1)
3.1.2 Epidemic with TTL and TTS
20(1)
3.1.3 Epidemic with DOA and DLE
21(1)
3.1.4 Epidemic with Immunity
21(1)
3.1.5 Epidemic Routing with Active Curing
22(1)
3.1.6 Spray and Wait
22(1)
3.2 Probability Based Routing Protocols
23(1)
3.2.1 Prioritized Epidemic Routing Protocol
23(1)
3.2.2 Meeting-Visit Routing Protocol
23(1)
3.3 Geographic Based Routing Protocols
24(2)
3.3.1 Vector Routing Protocol
24(1)
3.3.2 Similarity Based Mobility Pattern Aware Routing Protocol
24(1)
3.3.3 Location-Aware Routing Protocol
25(1)
3.3.4 Location Aided Routing Protocol
25(1)
3.3.5 Geography Aware Active Routing Protocol
26(1)
3.4 Social Concept Based Routing Protocols
26(6)
3.4.1 Social Group Based Routing Protocol
26(1)
3.4.2 Context-Aware Routing Protocol
27(1)
3.4.3 Friendship Based Routing Protocol
27(1)
3.4.4 Practical Incentive Routing Protocol
28(1)
3.4.5 Social Network Oriented Duration Utility Based Distributed Multicopy Routing Protocol
29(1)
3.4.6 SocialCast Routing Protocol
29(1)
3.4.7 Probabilistic Routing Protocol Using History of Encounters and Transitivity
30(1)
3.4.8 Simbet Routing Protocol
30(1)
3.4.9 Bubble Rap Routing Protocol
31(1)
3.5 Time Related Routing Protocols
32(3)
3.5.1 Transient Social Contact Pattern
32(1)
3.5.2 Time Evolving Topology Control
32(1)
References
32(3)
4 Social Characteristics Based Multiple Dimensional Routing Protocol in Human Associated Delay Tolerant Networks
35(18)
4.1 Background
36(4)
4.1.1 Social Concepts
36(1)
4.1.2 Case Study
37(3)
4.2 3-Dimensional Coordinate Model
40(5)
4.2.1 Triangle Coordination System
40(5)
4.2.2 Social Distance Calculation
45(1)
4.3 M-Dimension: Multi-dimensional Modeling
45(3)
4.3.1 Unification Process and Weight Factor
45(2)
4.3.2 Social Distance Calculation
47(1)
4.4 Multi-cast Selection and Forwarding
48(1)
4.5 Summary
49(4)
References
50(3)
5 Data Dissemination in Delay Tolerant Networks with Geographic Information
53(16)
5.1 Geographic Location Based Data Dissemination in Vehicle Delay Tolerant Networks
53(3)
5.1.1 Background
53(1)
5.1.2 Generic DTN Based Data Dissemination in Vehicle Based Delay Tolerant Networks
54(1)
5.1.3 Hybrid Geographic Information Based Data Dissemination in Vehicle Based Delay Tolerant Networks
55(1)
5.2 Combination of Time, Social and Geographic in Human Associated Delay Tolerant Networks
56(10)
5.2.1 Background
56(1)
5.2.2 Case Study Based on MIT Reality Dataset
57(6)
5.2.3 Time-Varying Social Contact Topology Model in Delay Tolerant Networks
63(3)
5.3 Summary
66(3)
References
66(3)
6 Privacy Protected Routing in Delay Tolerant Networks
69(12)
6.1 Background
70(2)
6.1.1 Data Privacy
70(1)
6.1.2 Key Node Selection
71(1)
6.2 Entropy Based Anonymous Data Forwarding in Delay Tolerant Networks
72(6)
6.2.1 Entropy Based Anonymous Attribute Detection
72(2)
6.2.2 Social Aware Kcore Decomposition Algorithm
74(3)
6.2.3 Anonymous Data Forwarding in Delay Tolerant Networks
77(1)
6.3 Summary
78(3)
References
78(3)
7 Conclusions and Future Work
81
7.1 Monograph Summary
81(1)
7.2 Monograph Contribution
82(2)
7.3 Future Work
84
References
85
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