Next-generation internet: architectures and protocols
"With ever-increasing demands on capacity, quality of service, speed, and reliability, current Internet systems are under strain and under review. Combining contributions from experts in the field, this book captures the most recent and innovative designs, architectures, protocols, and mechanis...
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Cambridge [u.a.]
Cambridge Univ. Press
2011
|
| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | "With ever-increasing demands on capacity, quality of service, speed, and reliability, current Internet systems are under strain and under review. Combining contributions from experts in the field, this book captures the most recent and innovative designs, architectures, protocols, and mechanisms that will enable researchers to successfully build the next-generation Internet. A broad perspective is provided, with topics including innovations at the physical/transmission layer in wired and wireless media, as well as the support for new switching and routing paradigms at the device and sub-system layer. The proposed alternatives to TCP and UDP at the data transport layer for emerging environments are also covered, as are the novel models and theoretical foundations proposed for understanding network complexity. Finally, new approaches for pricing and network economics are discussed, making this ideal for students, researchers, and practitioners who need to know about designing, constructing, and operating the next-generation Internet"-- |
| Beschreibung: | Includes bibliographical references and index Machine generated contents note: Part I. Enabling Technologies: 1. Optical layer switching paradigms D. Cuda, R. Gaudino, G. Gavilanes Castillo and F. Nero; 2. Broadband access networks: current and future directions A. Reaz, L. Shi and B. Mukherjee; 3. The optical control plane and a novel unified control place architecture for IP/WDM networks G. Ellinas, A. Hadjiantonis, N. Antoniades, M. A. Ali and A. Khalil; 4. Cognitive routing protocols and architecture S. Ju and J. B. Evans; 5. Grid networking A. Ravula and B. Ramamurthy; Part II. Network Architectures: 6. HIP: host identity protocol P. Nikander, A. Gurtov and T. R. Henderson; 7. Contract switching for managing inter-domain dynamics M. Yuksel, A. Gupta, K. Kar and S. Kalyanaraman; 8. PHAROS project I. Baldine, A. W. Jackson, J. Jacob, W. E. Leland, J. H. Lowry, W. C. Milliken, P. P. Pal, S. Ramanathan, K. A. Rauschenbach, C. A. Santivanez and D. M. Wood; 9. Network services and data-path customization T. Wolf; 10. SILO architecture R. Dutta and I. Baldine; Part III. Protocols and Practice: 11. Separating routing policy from mechanism in the network layer J. Griffioen, K. L. Calvert, O. Ascigil and S. Yuan; 12. Multipath BGP: motivations and solutions F. Valera, I. van Beijnum, A. Garcia-Martinez and M. Bagnulo; 13. Explicit congestion control: charging, fairness and admission management F. Kelly and G. Raina; 14. Kansei: a software infrastructure for resource management and programmer support across wireless sensor network fabrics M. Sridharan, W. Zeng, W. Leal, X. Ju, R. Ramnath, H. Zhang and A. Arora; 15. Router design including buffering and queuing strategies for the next generation Internet D. Wischik; 16. Stochastic NUM and wireless scheduling Y. Yi and M. Chiang; 17. Network coding in bi-directed and peer-to-peer networks Z. Li, H. Xu and B. Li; 18. Network economics and pricing J. Musacchio, G. Schwartz and J. Walrand |
| Beschreibung: | XXIII, 409 S. Ill. |
| ISBN: | 9780521113687 |
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| 245 | 1 | 0 | |a Next-generation internet |b architectures and protocols |c ed. by Byrav Ramamurthy ... |
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| 500 | |a Includes bibliographical references and index | ||
| 500 | |a Machine generated contents note: Part I. Enabling Technologies: 1. Optical layer switching paradigms D. Cuda, R. Gaudino, G. Gavilanes Castillo and F. Nero; 2. Broadband access networks: current and future directions A. Reaz, L. Shi and B. Mukherjee; 3. The optical control plane and a novel unified control place architecture for IP/WDM networks G. Ellinas, A. Hadjiantonis, N. Antoniades, M. A. Ali and A. Khalil; 4. Cognitive routing protocols and architecture S. Ju and J. B. Evans; 5. Grid networking A. Ravula and B. Ramamurthy; Part II. Network Architectures: 6. HIP: host identity protocol P. Nikander, A. Gurtov and T. R. Henderson; 7. Contract switching for managing inter-domain dynamics M. Yuksel, A. Gupta, K. Kar and S. Kalyanaraman; 8. PHAROS project I. Baldine, A. W. Jackson, J. Jacob, W. E. Leland, J. H. Lowry, W. C. Milliken, P. P. Pal, S. Ramanathan, K. A. Rauschenbach, C. A. Santivanez and D. M. Wood; 9. Network services and data-path customization T. Wolf; 10. SILO architecture R. Dutta and I. Baldine; Part III. Protocols and Practice: 11. Separating routing policy from mechanism in the network layer J. Griffioen, K. L. Calvert, O. Ascigil and S. Yuan; 12. Multipath BGP: motivations and solutions F. Valera, I. van Beijnum, A. Garcia-Martinez and M. Bagnulo; 13. Explicit congestion control: charging, fairness and admission management F. Kelly and G. Raina; 14. Kansei: a software infrastructure for resource management and programmer support across wireless sensor network fabrics M. Sridharan, W. Zeng, W. Leal, X. Ju, R. Ramnath, H. Zhang and A. Arora; 15. Router design including buffering and queuing strategies for the next generation Internet D. Wischik; 16. Stochastic NUM and wireless scheduling Y. Yi and M. Chiang; 17. Network coding in bi-directed and peer-to-peer networks Z. Li, H. Xu and B. Li; 18. Network economics and pricing J. Musacchio, G. Schwartz and J. Walrand | ||
| 520 | |a "With ever-increasing demands on capacity, quality of service, speed, and reliability, current Internet systems are under strain and under review. Combining contributions from experts in the field, this book captures the most recent and innovative designs, architectures, protocols, and mechanisms that will enable researchers to successfully build the next-generation Internet. A broad perspective is provided, with topics including innovations at the physical/transmission layer in wired and wireless media, as well as the support for new switching and routing paradigms at the device and sub-system layer. The proposed alternatives to TCP and UDP at the data transport layer for emerging environments are also covered, as are the novel models and theoretical foundations proposed for understanding network complexity. Finally, new approaches for pricing and network economics are discussed, making this ideal for students, researchers, and practitioners who need to know about designing, constructing, and operating the next-generation Internet"-- | ||
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Datensatz im Suchindex
| _version_ | 1804143426926542848 |
|---|---|
| adam_text | Contents
Contributors page
xvi
Preface
xix
Part I Enabling technologies
1
1
Optical switching fabrics for terabit packet switches
3
Davide
Cuda,
Roberto Gaudino,
Guido A. Gavilanes
Castillo, and
Fabio Neri
1.1
Optical switching fabrics
5
1.1.1
Wavelength-selective
(WS)
architecture
7
1.1.2
Wavelength-routing (WR) architecture
8
1.1.3
Plane-switching (PS) architecture
9
1.2
Modeling optical devices
10
1.2.1
Physical model
11
1.2.2
Device characterization
12
1.2.3
Multi-plane-specific issues
15
1.3
Scalability analysis
16
1.4
Cost analysis
18
1.5
Results
21
1.5.1
Scalability of the aggregate switching bandwidth
21
1.5.2
CAPEX estimation
23
1.6
Conclusions
24
References
25
2
Broadband access networks: current and future directions
27
Abu (Sayeem) Reaz, Lei Shi, and Biswanath Mukherjee
2.1
Introduction
27
2.1.1
Current broadband access solutions
27
2.1.2
Passive Optical Network (PON)
28
2.1.3
Extending the reach: Long-Reach PON (LR-PON)
30
2.2
Technologies and demonstrations
32
2.2.1
Enabling technologies
32
2.2.2
Demonstrations of LR-PON
33
Contents
2.3 Research
challenges
in LR-PON 34
2.3.1
Low-cost devices: colorless
ONU
34
2.3.2
Resource allocation: DBA with Multi-Thread Polling
34
2.3.3
Traffic management: behavior-aware user assignment
35
2.4
Reaching the end-users: Wireless-Optical Broadband Access
Network (WOBAN)
36
2.4.1
WOBAN architecture
36
2.4.2
Motivation of WOBAN
37
2.4.3
Research challenges in WOBAN
38
2.5
Conclusion
39
References
39
The optical control plane and a novel unified control plane
architecture for IP/WDM networks
42
Georgios
Ellinas, Antonis
Hadjiantonis, Ahmad Khalil, Neophytos Antoniades,
and
Mohamed
A. Ali
3.1
Introduction
42
3.2
Overview of optical control plane design
43
3.2.1
Link Management Protocol
44
3.2.2
GMPLS routing protocol
44
3.2.3
GMPLS signaling protocol
46
3.3
IP-over-WDM networking architecture
47
3.3.1
The overlay model
48
3.3.2
The peer and augmented models
48
3.4
A new approach to optical control plane design: an optical
layer-based unified control plane architecture
49
3.4.1
Node architecture for the unified control plane
50
3.4.2
Optical layer-based provisioning
51
3.5
Conclusions
68
References
68
Cognitive routing protocols and architecture
72
Suyang Ju and Joseph B. Evans
4.1
Introduction
72
4.2
Mobility-aware routing protocol
73
4.2.1
Background
73
4.2.2
Approach
74
4.2.3
Benefits
77
4.2.4
Protocol architecture
78
4.3
Spectrum-aware routing protocol
79
4.3.1
Background
79
4.3.2
Approach
80
Contents
4.3.3
Benefits
83
4.3.4
Protocol architecture
84
4.4
Conclusion
84
References
85
5
Grid networking
88
Anusha Ravula and Byrav Ramamurthy
5.1
Introduction
88
5.2
The Grid
89
5.2.1
Grid Computing
89
5.2.2
Lambda Grid networks
90
5.3
Cloud Computing
91
5.4
Resources
92
5.4.1
Grid network resources
92
5.4.2
Optical network
testbeds
and projects
92
5.4.3
Computational resources
94
5.4.4
Other resources
95
5.5
Scheduling
95
5.6
Optical Circuit Switching and Optical Burst Switching
98
5.6.1
Studies on OCS-based Grids
98
5.6.2
Studies on OBS-based Grids
100
5.7
Conclusion
101
References
102
Part II Network architectures
105
б
Host identity protocol (HIP): an overview
107
Pekka
Nikander, Andrei Gurtov, and Thomas R. Henderson
6.1
Introduction
107
6.2
Fundamental problems in the Internet today
108
6.2.1
Loss of universal connectivity
109
6.2.2
Poor support for mobility and multi-homing
109
6.2.3
Unwanted traffic
109
6.2.4
Lack of authentication, privacy, and accountability
110
6.3
The HIP architecture and base exchange
110
6.3.1
Basics 111
6.3.2
HITs and LSIs
112
6.3.3
Protocols and packet formats
113
6.3.4
Detailed layering
117
6.3.5
Functional model
118
6.3.6
Potential drawbacks
120
Contents
6.4
Mobility, multi-homing, and connectivity
121
6.4.1
HIP-based basic mobility and multi-homing
121
6.4.2
Facilitating rendezvous
122
6.4.3
Mobility between addressing realms and through NATs
123
6.4.4
Subnetwork mobility
124
6.4.5
Application-level mobility
126
6.5
Privacy, accountability, and unwanted traffic
126
6.5.1
Privacy and accountability
126
6.5.2
Reducing unwanted traffic
127
6.6
Current status of HIP
129
6.7
Summary
131
References
131
Contract-switching for managing inter-domain dynamics
136
Murat
Yuksel, Aparna Gupta, Koushik
Kar,
and Shiv Kalyanaraman
7.1
Contract-switching paradigm
137
7.2
Architectural issues
138
7.2.1
Dynamic contracting over peering points
139
7.2.2
Contract routing
139
7.3
A contract link: bailouts and forwards
143
7.3.1
Bailout forward contract (BFC)
144
7.3.2
Formalization for pricing a bailout forward contract (BFC)
144
7.3.3
Bailout forward contract (BFC) performance evaluation
147
7.4
Summary
152
References
153
PHAROS: an architecture for next-generation core optical networks
154
Ilia Baldine, Alden W. Jackson, John Jacob, Will E. Leland, John H. Lowry, Walker
C. Milliken,
Partha P. Pal, Subramanian Ramanathan, Kristin
Rauschenbach,
Cesar A.
Santivanez, and Daniel M. Wood
8.1
Introduction
154
8.2
Background
157
8.3
PHAROS architecture: an overview
157
8.4
Resource allocation
161
8.4.1
Resource management strategies
161
8.4.2
Protection
164
8.4.3
Playbooks
166
8.4.4
Sub-lambda grooming
168
8.5
Signaling system
169
8.5.1
Control plane operation
171
8.5.2
Failure notification
172
Contents
8.6
Core node implementation
173
8.7
Performance analysis
175
8.8
Concluding remarks
176
References
177
9
Customizable in-network services
179
Tilman Wolf
9.1
Background
179
9.1.1
Internet architecture
179
9.1.2
Next-generation Internet
180
9.1.3
Data path programmability
180
9.1.4
Technical challenges
181
9.1.5
In-network processing solutions
181
9.2
Network services
182
9.2.1
Concepts
182
9.2.2
System architecture
184
9.3
End-system interface and service specification
186
9.3.1
Service pipeline
186
9.3.2
Service composition
187
9.4
Routing and service placement
188
9.4.1
Problem statement
188
9.4.2
Centralized routing and placement
189
9.4.3
Distributed routing and placement
190
9.5
Runtime resource management
191
9.5.1
Workload and system model
191
9.5.2
Resource management problem
192
9.5.3
Task duplication
192
9.5.4
Task mapping
193
9.6
Summary
194
References
194
10
Architectural support for continuing Internet evolution
and innovation
197
Rudra Dutta and Ilia Baldine
10.1
Toward a new Internet architecture
197
10.2
The problems with the current architecture
199
10.3
SILO architecture: design for change
201
10.4
Prior related work
206
10.5
Prototype and case studies
207
Contents
10.6
Future
work: SDO, stability, virtualization, silo-plexes
208
10.6.1
Virtualization
208
10.6.2
SDO: software defined optics
211
10.6.3
Other open problems
212
10.7
Case study
213
Acknowledgements
214
References
214
Part III Protocols and practice
217
11
Separating routing policy from mechanism in the network layer
219
James
Griffioen,
Kenneth L. Calvert, Onur
Ascigli,
and Song Yuan
11.1
Introduction
219
11.2
PoMo design goals
220
11.3
Architecture overview
222
11.3.1
PFRI network structure and addressing
222
11.3.2
PFRI forwarding
223
11.3.3
PFRI routing policies
225
11.3.4
PFRI packet header mechanisms
226
11.4
Scaling the PFRI architecture
227
11.5
Discussion
230
11.6
Experimental evaluation
232
11.7
Other clean-slate approaches
234
Acknowledgements
235
References
235
12
Multi-path BGP: motivations and solutions
238
Francisco
Valera,
lljitsch van Beijnum, Alberto
García-Martínez, Marcelo Bagnulo
12.1
Introduction
238
12.2
Trilogy project
239
12.2.1
Objectives
239
12.2.2
Trilogy technologies
240
12.3
Multi-path routing
241
12.3.1
Higher network capacity
242
12.3.2
Scalable traffic engineering capabilities
242
12.3.3
Improved response to path changes
242
12.3.4
Enhanced security
243
12.3.5
Improved market transparency
243
12.4
Multi-path BGP
244
12.4.1
Intra-domain multi-path routing
244
12.4.2
Inter-domain multi-path routing
245
Contents
12.4.3
Motivations
for other solutions
247
12.4.4
mBGP and MpASS
248
12.5
Conclusions and future work
253
References
254
13
Explicit congestion control: charging, fairness, and
admission management
257
Frank Kelly and Gaurav
Raina
13.1
Fairness
258
13.1.1
Why proportional fairness?
260
13.2
Proportionally fair rate control protocol
260
13.2.1
Sufficient conditions for local stability
263
13.2.2
Illustrative simulation
264
13.2.3
Two forms of feedback?
264
13.2.4
Tâtonnement
processes
265
13.3
Admission management
265
13.3.1
Step-change algorithm
266
13.3.2
Robustness of the step-change algorithm
267
13.3.3
Guidelines for network management
268
13.3.4
Illustrating the utilization-robustness tradeoff
269
13.3.5
Buffer sizing and the step-change algorithm
270
13.4
Concluding remarks
272
References
273
14
KanseiGenie: software infrastructure for resource management
and programmability of wireless sensor network fabrics
275
Mukundan Sndharan, Wenjie
Zeng,
William Leal,
Xi
Ju, Rajiv Ramnath,
Hongwei Zhang, and Anish Arora
14.1
Introduction
275
14.2
Features of sensing fabrics
278
14.2.1
Generic services
278
14.2.2
Domain-specific services
283
14.3
KanseiGenie architecture
284
14.3.1
The fabric model
284
14.3.2
KanseiGenie architecture
285
14.3.3
GENI
extension to KanseiGenie
287
14.3.4
Implementation of KanseiGenie
288
14.3.5
KanseiGenie federation
290
14.4
KanseiGenie customization and usage
292
14.4.1
How to customize KanseiGenie
292
14.4.2
Vertical APIs and their role in customization
293
14.4.3
KanseiGenie usage step-by-step runthrough
294
Contents
14.5
Evolving research issues in next-generation networks
295
14.5.1
Resource specifications for sensor fabrics
295
14.5.2
Resource discovery
296
14.5.3
Resource allocation
296
14.5.4
Data as resource
297
14.5.5
Network virtualization
297
14.6
Conclusion
298
References
298
Part IV Theory and models
301
15
Theories for buffering and scheduling in Internet switches
303
Damon Wischik
15.1
Introduction
303
15.2
Buffer sizing and end-to-end congestion control
304
15.2.1
Four heuristic arguments about buffer sizing
305
15.2.2
Fluid traffic model and queue model
307
15.2.3
Queueing delay, utilization, and synchronization
309
15.2.4
Traffic burstiness
312
15.3
Queueing theory for switches with scheduling
313
15.3.1
Model for a switched network
313
15.3.2
The capacity region, and virtual queues
314
15.3.3
Performance analysis
315
15.4
A proposed packet-level architecture
320
References
323
16
Stochastic network utility maximization and wireless scheduling
324
Yung Yi and Mung Chiang
16.1
Introduction
324
16.2
LAD (Layering As optimization Decomposition)
326
16.2.1
Background
326
16.2.2
Key ideas and procedures
327
16.3
Stochastic
NUM
(Network Utility Maximization)
328
16.3.1
Session-level dynamics
328
16.3.2
Packet-level dynamics
332
16.3.3
Constraint-level dynamics
334
16.3.4
Combinations of multiple dynamics
336
16.4
Wireless scheduling
337
16.4.1
Collision-free algorithms
339
16.4.2
Collision-based algorithms
342
Contents
16.4.3
Performance-complexity tradeoff
346
16.4.4
Future research directions
350
References
351
17
Network coding in bi-directed and peer-to-peer networks
359
Zongpeng Li, Hong Xu, and Baochun Li
17.1
Network coding background
359
17.2
Network coding in bi-directed networks
361
17.2.1
Single multicast in undirected networks
361
17.2.2
The linear programming perspective
365
17.2.3
Single multicast in Internet-like bi-directed networks
366
17.2.4
Towards tighter bounds
367
17.2.5
Multiple communication sessions
367
17.2.6
The source independence property of multicast
368
17.3
Network coding in peer-to-peer networks
369
17.3.1
Peer-assisted content distribution with network coding
369
17.3.2
Peer-assisted media streaming with network coding
371
17.4
Conclusions
374
References
375
18
Network economics: neutrality, competition, and service
differentiation
378
John Musacchio,
Galina
Schwartz, and Jean Walrand
18.1
Neutrality
380
18.1.1
Model
381
18.1.2
The analysis of one- and two-sided pricing
384
18.1.3
User welfare and social welfare
386
18.1.4
Comparison
386
18.1.5
Conclusions
389
18.2
Competition
390
18.2.1
Model
392
18.2.2
Circuit analogy
393
18.3
Service differentiation
398
Acknowledgement
400
References
400
About the editors
403
Index
405
|
| any_adam_object | 1 |
| author_GND | (DE-588)157216233 |
| building | Verbundindex |
| bvnumber | BV036760177 |
| classification_rvk | ST 205 |
| ctrlnum | (OCoLC)705947869 (DE-599)BVBBV036760177 |
| discipline | Informatik |
| edition | 1. publ. |
| format | Book |
| fullrecord | <?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>04902nam a2200493 c 4500</leader><controlfield tag="001">BV036760177</controlfield><controlfield tag="003">DE-604</controlfield><controlfield tag="005">20110517 </controlfield><controlfield tag="007">t</controlfield><controlfield tag="008">101105s2011 a||| |||| 00||| eng d</controlfield><datafield tag="015" ind1=" " ind2=" "><subfield code="a">GBB090853</subfield><subfield code="2">dnb</subfield></datafield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">9780521113687</subfield><subfield code="c">hbk</subfield><subfield code="9">978-0-521-11368-7</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)705947869</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-599)BVBBV036760177</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">DE-604</subfield><subfield code="b">ger</subfield><subfield code="e">rakwb</subfield></datafield><datafield tag="041" ind1="0" ind2=" "><subfield code="a">eng</subfield></datafield><datafield tag="049" ind1=" " ind2=" "><subfield code="a">DE-473</subfield><subfield code="a">DE-29T</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">ST 205</subfield><subfield code="0">(DE-625)143613:</subfield><subfield code="2">rvk</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Next-generation internet</subfield><subfield code="b">architectures and protocols</subfield><subfield code="c">ed. by Byrav Ramamurthy ...</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">1. publ.</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Cambridge [u.a.]</subfield><subfield code="b">Cambridge Univ. Press</subfield><subfield code="c">2011</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">XXIII, 409 S.</subfield><subfield code="b">Ill.</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="b">n</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="b">nc</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">Includes bibliographical references and index</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">Machine generated contents note: Part I. Enabling Technologies: 1. Optical layer switching paradigms D. Cuda, R. Gaudino, G. Gavilanes Castillo and F. Nero; 2. Broadband access networks: current and future directions A. Reaz, L. Shi and B. Mukherjee; 3. The optical control plane and a novel unified control place architecture for IP/WDM networks G. Ellinas, A. Hadjiantonis, N. Antoniades, M. A. Ali and A. Khalil; 4. Cognitive routing protocols and architecture S. Ju and J. B. Evans; 5. Grid networking A. Ravula and B. Ramamurthy; Part II. Network Architectures: 6. HIP: host identity protocol P. Nikander, A. Gurtov and T. R. Henderson; 7. Contract switching for managing inter-domain dynamics M. Yuksel, A. Gupta, K. Kar and S. Kalyanaraman; 8. PHAROS project I. Baldine, A. W. Jackson, J. Jacob, W. E. Leland, J. H. Lowry, W. C. Milliken, P. P. Pal, S. Ramanathan, K. A. Rauschenbach, C. A. Santivanez and D. M. Wood; 9. Network services and data-path customization T. Wolf; 10. SILO architecture R. Dutta and I. Baldine; Part III. Protocols and Practice: 11. Separating routing policy from mechanism in the network layer J. Griffioen, K. L. Calvert, O. Ascigil and S. Yuan; 12. Multipath BGP: motivations and solutions F. Valera, I. van Beijnum, A. Garcia-Martinez and M. Bagnulo; 13. Explicit congestion control: charging, fairness and admission management F. Kelly and G. Raina; 14. Kansei: a software infrastructure for resource management and programmer support across wireless sensor network fabrics M. Sridharan, W. Zeng, W. Leal, X. Ju, R. Ramnath, H. Zhang and A. Arora; 15. Router design including buffering and queuing strategies for the next generation Internet D. Wischik; 16. Stochastic NUM and wireless scheduling Y. Yi and M. Chiang; 17. Network coding in bi-directed and peer-to-peer networks Z. Li, H. Xu and B. Li; 18. Network economics and pricing J. Musacchio, G. Schwartz and J. Walrand</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">"With ever-increasing demands on capacity, quality of service, speed, and reliability, current Internet systems are under strain and under review. 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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV036760177 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T22:47:29Z |
| institution | BVB |
| isbn | 9780521113687 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-020677235 |
| oclc_num | 705947869 |
| open_access_boolean | |
| owner | DE-473 DE-BY-UBG DE-29T |
| owner_facet | DE-473 DE-BY-UBG DE-29T |
| physical | XXIII, 409 S. Ill. |
| publishDate | 2011 |
| publishDateSearch | 2011 |
| publishDateSort | 2011 |
| publisher | Cambridge Univ. Press |
| record_format | marc |
| spelling | Next-generation internet architectures and protocols ed. by Byrav Ramamurthy ... 1. publ. Cambridge [u.a.] Cambridge Univ. Press 2011 XXIII, 409 S. Ill. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Machine generated contents note: Part I. Enabling Technologies: 1. Optical layer switching paradigms D. Cuda, R. Gaudino, G. Gavilanes Castillo and F. Nero; 2. Broadband access networks: current and future directions A. Reaz, L. Shi and B. Mukherjee; 3. The optical control plane and a novel unified control place architecture for IP/WDM networks G. Ellinas, A. Hadjiantonis, N. Antoniades, M. A. Ali and A. Khalil; 4. Cognitive routing protocols and architecture S. Ju and J. B. Evans; 5. Grid networking A. Ravula and B. Ramamurthy; Part II. Network Architectures: 6. HIP: host identity protocol P. Nikander, A. Gurtov and T. R. Henderson; 7. Contract switching for managing inter-domain dynamics M. Yuksel, A. Gupta, K. Kar and S. Kalyanaraman; 8. PHAROS project I. Baldine, A. W. Jackson, J. Jacob, W. E. Leland, J. H. Lowry, W. C. Milliken, P. P. Pal, S. Ramanathan, K. A. Rauschenbach, C. A. Santivanez and D. M. Wood; 9. Network services and data-path customization T. Wolf; 10. SILO architecture R. Dutta and I. Baldine; Part III. Protocols and Practice: 11. Separating routing policy from mechanism in the network layer J. Griffioen, K. L. Calvert, O. Ascigil and S. Yuan; 12. Multipath BGP: motivations and solutions F. Valera, I. van Beijnum, A. Garcia-Martinez and M. Bagnulo; 13. Explicit congestion control: charging, fairness and admission management F. Kelly and G. Raina; 14. Kansei: a software infrastructure for resource management and programmer support across wireless sensor network fabrics M. Sridharan, W. Zeng, W. Leal, X. Ju, R. Ramnath, H. Zhang and A. Arora; 15. Router design including buffering and queuing strategies for the next generation Internet D. Wischik; 16. Stochastic NUM and wireless scheduling Y. Yi and M. Chiang; 17. Network coding in bi-directed and peer-to-peer networks Z. Li, H. Xu and B. Li; 18. Network economics and pricing J. Musacchio, G. Schwartz and J. Walrand "With ever-increasing demands on capacity, quality of service, speed, and reliability, current Internet systems are under strain and under review. Combining contributions from experts in the field, this book captures the most recent and innovative designs, architectures, protocols, and mechanisms that will enable researchers to successfully build the next-generation Internet. A broad perspective is provided, with topics including innovations at the physical/transmission layer in wired and wireless media, as well as the support for new switching and routing paradigms at the device and sub-system layer. The proposed alternatives to TCP and UDP at the data transport layer for emerging environments are also covered, as are the novel models and theoretical foundations proposed for understanding network complexity. Finally, new approaches for pricing and network economics are discussed, making this ideal for students, researchers, and practitioners who need to know about designing, constructing, and operating the next-generation Internet"-- Internet / Technological innovations Internetworking / Technological innovations TECHNOLOGY & ENGINEERING / General bisacsh Internetworking (DE-588)4225115-1 gnd rswk-swf Internet (DE-588)4308416-3 gnd rswk-swf Technische Innovation (DE-588)4431027-4 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Internet (DE-588)4308416-3 s Technische Innovation (DE-588)4431027-4 s DE-604 Internetworking (DE-588)4225115-1 s Ramamurthy, Byrav Sonstige (DE-588)157216233 oth Digitalisierung UB Bamberg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020677235&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Next-generation internet architectures and protocols Internet / Technological innovations Internetworking / Technological innovations TECHNOLOGY & ENGINEERING / General bisacsh Internetworking (DE-588)4225115-1 gnd Internet (DE-588)4308416-3 gnd Technische Innovation (DE-588)4431027-4 gnd |
| subject_GND | (DE-588)4225115-1 (DE-588)4308416-3 (DE-588)4431027-4 (DE-588)4143413-4 |
| title | Next-generation internet architectures and protocols |
| title_auth | Next-generation internet architectures and protocols |
| title_exact_search | Next-generation internet architectures and protocols |
| title_full | Next-generation internet architectures and protocols ed. by Byrav Ramamurthy ... |
| title_fullStr | Next-generation internet architectures and protocols ed. by Byrav Ramamurthy ... |
| title_full_unstemmed | Next-generation internet architectures and protocols ed. by Byrav Ramamurthy ... |
| title_short | Next-generation internet |
| title_sort | next generation internet architectures and protocols |
| title_sub | architectures and protocols |
| topic | Internet / Technological innovations Internetworking / Technological innovations TECHNOLOGY & ENGINEERING / General bisacsh Internetworking (DE-588)4225115-1 gnd Internet (DE-588)4308416-3 gnd Technische Innovation (DE-588)4431027-4 gnd |
| topic_facet | Internet / Technological innovations Internetworking / Technological innovations TECHNOLOGY & ENGINEERING / General Internetworking Internet Technische Innovation Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020677235&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT ramamurthybyrav nextgenerationinternetarchitecturesandprotocols |