March 2002
Internet Basis
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Internet Philosophy and Methodology
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[CT90] D. Clark and D. Tennenhouse,
Architectural
Consideration for a New Generation of Protocols, in Proc. SIGCOMM'90,
Philadelphia, PA, Sep 1990.
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[RFC1958] B. Carpenter (Ed.),
Architectural
Principles of the Internet, RFC 1958, Jun 1996
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[SRC84] J. Saltzer, D. Reed,
and D. Clark,
End-to-end
Arguments in System Design. ACM
Transactions on Computer Systems, 2(4): 195-206, 1984.
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[BC01] M. Blumenthal and D. Clark,
Rethinking
the design of the Internet: The end to end arguments vs. the brave new
world. ACM Transactions on Internet Technology, 2001.
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IPv6
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[Hin96] R. Hinden, IP
Next Generation Overview, Communication of the ACM, 39 (6): 61-71,
Jun 1996.
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[RFC2460] S. Deering, R. Hinden,
Internet
Protocol, Version 6 (IPv6) Specification, RFC 2460, 1998.
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[CK99] B. Carpenter and D. Kandlur,
Diversifying
Internet Delivery, IEEE Spectrum,1999.
Wireless Access to the Internet
Mobility Support for the Internet
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Mobile IP
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[Kar99] G. Karagiannis, Mobile
IP - State of the Art Report, Erricson technical report,1999.
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[RFC3220] C. Perkins(Ed.),
IP Mobility Support for IPv4, RFC 3220, 2002.
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[JP01] D. Johnson,C. Perkins,
Mobility
Support in IPv6, Internet Draft, work in progress, 2001.
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Generals and Others
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[Rei01] P. Reinbold, An
overview of IP Mobility Protocols, 2001.
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[CG01] A. T. Campbell and J.
Gomez, "IP
Micro-Mobility Protocols" , ACM SIGMOBILE Mobile Computer and Communication
Review, 4(4): 45-54, Oct 2001.
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[SB00] A. Snoeren and H. Balakrishnan,
An
End-to-End Approach to Host Mobility, in Proc. MOBICOM'2000, Aug 2000.
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[FKS00] A. Festag, H. Karl, and
G. Schaefer, Current
developments and trends in handover design for ALL-IP wireless networks,
Technical Report TKN-00-007, Telecommunication Networks Group, Technische
Universität Berlin, Aug 2000.
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Transport Protocols Performance
Beyond Best-Effort: Integrated and Differentiated
Services
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[CSZ92] D. Clark, S. Shenker,
and L. Zhang, Supporting
Real-Time Applications in an Integrated Services Packet Network: Architecture
and Mechanisms. In Proc. SIGCOMM'92, Baltimore, MD, Aug 1992.
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[RFC2205] R. Braden, (Ed.), L.
Zhang, S. Berson, et al, Resource
ReSerVation Protocol (RSVP) -- Version 1 Functional Specification,
RFC 2205, 1997.
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[RFC2475] S. Blake,D. Black,
M. Carlson, et al, An
Architecture for Differentiated Services, RFC 2475, Dec 1998.
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[ZY99] M. van der Zee, R. Yaiz,
Quality
of Service over Specific Link Layers - State of the Art Report, 1999.
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[Wes02] L. Westberg, Resource
Management in Diffserv (RMD) Framework, Internet Draft, work in progress,
Feb 2002.
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[RFC2990] G. Huston, Next
Steps for the IP QoS Architecture, RFC 2990, Nov 2000.
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[MVS01] V. Marziale, A. Vitaletti,
A.
Spazio, A
Framework for Internet QoS Requirements Definition and Evaluation: an experimental
approach, Mobile Summit 2001.
IP Mobilty and QoS
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Challenges and Requirements
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[CS99] D. Chalmers and M. Sloman,
A
Survey of Quality of Service in Mobile Computing Environments IEEE
Communications Surveys, 2000.
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[RFC3002] D. Mitzel, Overview
of 2000 IAB Wireless Internetworking Workshop, RFC 3002, Dec 2000
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[Cha02] H. Chaskar(Ed.), Requirements
of a QoS Solution for Mobile IP, Internet Draft, work in progress,
2002
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[BCS99] T. Braun, C. Castelluccia,
and G. Stattenberger: An
Analysis of the DiffServ Approach in Mobile Environments, IWQiM´99.
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[MLM02] J. Manner, A. López,
A. Mihailovic, et al, Evaluation
of Mobility and QoS Interaction, Computer Networks, 38(2):137-163,
Feb 2002.
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[Bru02] Brunner, M. (ed.), Requirements
for QoS Signaling Protocols, Internet Draft, work in progress, Feb
2002.
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QoS Signaling Schemes in Mobile Environment
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[LGZC00] S. Lee,
A. Gahng-Seop, X. Zhang and A. Campbell, "INSIGNIA:
An IP-Based Quality of Service Framework for Mobile Ad Hoc Networks",
Journal
of Parallel and Distributed Computing, Special issue on Wireless and Mobile
Computing and Communications, 60(4): 374-406, Apr 2000. (an in-band
approach for ad hoc networks)
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[CK01] H. Chaskar, R. Koodli,
A
Framework for QoS Support in Mobile IPv6, Internet Draft, work in progress,
Mar 2001. (another in-band approach introducing a QoS hop-by-hop
option in mobile IPv6)
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[TBA99] A. Talukdar, B. Badrinath,
A. Acharya, MRSVP:
A reservation protocol for an Integrated Services Packet Networks with
Mobile hosts, Technical report, TR-337, Rutgers University. (an
early paper on extending RSVP for supporting IP mobility)
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[Shen01] C. Shen et al.
An
Interoperation Framework for Using RSVP in Mobile IPv6 Neworks,
Internet Draft, work in progress, Jul 2001. (uses transparent
identifier for a RSVP flow)
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[Pas01] S. Paskalis et al.,
RSVP
Mobility Proxy, Internet Draft, work in progress, Dec 2001. (uses
a different flow identifier inside a hierarchical domain for a RSVP flow)
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[KR00] G. Karagiannis, V. Rexhepi,
A
Framework for QoS & Mobility in the Internet Next Generation, 2000.(tries
to integrate RSVP, SIP and MIP)
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QoS Management Schemes in Mobile Environment
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[LRSG] O. Lataoui, T.Rachidi,
L. Samuel, S. Gruhl, and R. Yan, A
QoS Management Architecture for Packet Switched 3rd Generation Mobile Systems,
Bell Labs Research Report. (3 components and their interaction: non-reservation
based admission control, token leaky bucket policer, and scheduler)
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[VJF98] B. Vandalore, R. Jain
and S. Fahmy, AQuaFWiN:
Adaptive QoS Framework for Multimedia in Wireless Networks and its Comparison
with other QoS Frameworks, in: Proc. 24th IEEE Conference on Local
Computer Networks, 1998. (uses a feedback mechanism to support adaptability
at all layers of the wireless network)
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[KS99] A. Kassler, P. Schulthess,
Extending
the QoS Paradigm of Wireless ATM to Mobile Broadband Applica-tions and
to the User, in Proc. WCNC'99, 1999. (moves adaptation from the
application to a middleware layer and introduces distributed resource negotiation)
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[CS99] D. Chalmers , M. Sloman,
QoS
and Context Awareness for Mobile Computing, in: Proc. 1st Intl. Symposium
on Handheld and Ubiquitous Computing (HUC'99), Karlsruhe, Germany, Sep.
1999. (a model supports QoS- and context-aware applications)
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[CLL01] W.-T. Chen, T.-M. Lin,
and S.-C. Lo, A
Dynamic Resource Reservation Scheme with the Hybrid Handoff Prediction
in Mobile Cellular Networks, Proc. Wireless Communications, Page(s):
281-289, 2001. (dynamic handoff reservation based on hybrid prediction)
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[HS02] R. Hutchens, S. Singh,
Bandwidth
reservation strategies for mobility support of wireless connections with
QoS guarantees, In Proc. 25th Australasian Computer Science Conference
(ACSC2002), Melbourne, Australia, 2002. (reduces dropped connections
on handoff by reserving bandwidth for connections that might move into
a cell from a neighbouring one)
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Active Projects
(Mobile) Internet Security
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[CGH98] P. Cheng., J. Garay,
A. Herzberg, A
Security Architecture for the Internet Protocol, IBM Systems Journal,
37(1), Feb 1998.
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[SKF01] G. Schäfer, H. Karl,
A. Festag. Current
Approaches to Authentication in Wireless and Mobile Communications Networks.
TKN Technical Report TKN-01-002, Institute of Telecommunication Systems,
Technische Universität Berlin, Mar 2001.
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[HJZS01] Hasan, J. Jähnert,
S. Zander, B. Stiller: Authentication,
Authorization, Accounting, and Charging for the Mobile Internet; TIK-Report
No. 114, Computer Engineering and Networks Laboratory TIK, ETH Zürich,
Switzerland, Jun 2001.
Links
Last updated: March 24, 2002
fu@cs.uni-goettingen.de