The implementation of a dynamic management scheme for guaranteed-performance connections

In this paper we present a prototype implementation of a management scheme that can be used to dynamically manage Guaranteed Performance Connection (GPC) services in Integrated Services Networks. These services are required to support the wide range of quality-of-service parameters desired by many useful applications. The GPC services provide performance guarantees in terms of throughput, delay, delay jitter and loss rates, and adopt a connection-oriented, fixed-route, reservation-oriented approach to achieve these guarantees. In such an approach, resource allocation and route selection decisions are usually static (i.e. they are made before the start of the communication on the basis of resource availability and real-time network load at that time, and are usually kept for the duration of the communication). This static approach limits the flexibility of these GPC services. In our previous work we presented our solution to this lack of flexibility. This solution, the Dynamic Connection Management (DCM) Scheme, provides the network with the capability to dynamically modify the traffic characteristics, the performance requirements, and the route of any existing guaranteed-performance connection (C. Parris, H. Zhang and D. Ferrari, ACM Multimedia Systems Journal, 1 (6) (1993) 267-283). We also presented several simulation experiments that proved the feasibility of the scheme and analyzed its performance. In this work we complete this proof of concept by implementing the DCM scheme and conducting several initial measurement experiments on this prototype. The implementation utilized the data delivery protocols of the Tenet Real-Time Protocol suite and the Simple Network Management Protocol version 1 (SNMPv1) as the control or management protocol. The measurement experiments indicated that, although the scheme is indeed useful, there are several limitations caused by the use of SNMPv1.

[1]  I. Cidon,et al.  Bandwidth management and congestion control in plaNET , 1991, IEEE Communications Magazine.

[2]  Jonathan S. Turner,et al.  Towards a framework for high speed communication in a heterogeneous networking environment , 1990, IEEE INFOCOM '89, Proceedings of the Eighth Annual Joint Conference of the IEEE Computer and Communications Societies.

[3]  D. Verma,et al.  Design and implementation of the real-time internet protocol , 1992, IEEE Workshop on the Architecture and Implementation of High Performance Communication Subsystems.

[4]  Richard Bellman,et al.  ON A ROUTING PROBLEM , 1958 .

[5]  Domenico Ferrari,et al.  A dynamic management scheme for real-time connections , 1994, Proceedings of INFOCOM '94 Conference on Computer Communications.

[6]  Marshall T. Rose,et al.  The simple book : an introduction to internet management , 1994 .

[7]  William Stallings SNMP, SNMPv2, and CMIP: the practical guide to network management , 1993 .

[8]  A.A. Lazar,et al.  Management and control for giant gigabit networks , 1993, IEEE Network.

[9]  David P. Anderson,et al.  SRP: A Resource Reservation Protocol for Guaranteed-Performance , 1990 .

[10]  Claudio Topolcic,et al.  Experimental Internet Stream Protocol: Version 2 (ST-II) , 1990, RFC.

[11]  Anindo Banerjea,et al.  Experiments with the tenet real-time protocol suite on the Sequoia 2000 wide area network , 1994, MULTIMEDIA '94.

[12]  Luca Delgrossi,et al.  Media scaling for audiovisual communication with the Heidelberg transport system , 1993, MULTIMEDIA '93.

[13]  R.W. Brodersen,et al.  A portable multimedia terminal , 1992, IEEE Communications Magazine.

[14]  Aurel A. Lazar,et al.  A Real-Time Management, Control and Information Transport Architecture for Broadband Networks , 1992 .

[15]  Marshall T. Rose,et al.  The Open book - a practical perspective on OSI , 1990 .

[16]  Richard L. Baker,et al.  Fixed distortion subband coding of images for packet-switched networks , 1989, IEEE J. Sel. Areas Commun..

[17]  Srinivasan Keshav,et al.  Comparison of rate-based service disciplines , 1991, SIGCOMM '91.

[18]  Aurel A. Lazar,et al.  Control of resources in broadband networks with quality of service guarantees , 1991 .

[19]  Mark Moran,et al.  A Continuous Media Data Transport Service and Protocol for Real-Time Communication in High Speed Networks , 1991, NOSSDAV.

[20]  Gunnar Karlsson,et al.  Subband Coding Of Video For Packet Networks , 1988 .

[21]  Anindo Banerjea,et al.  The Real-Time Channel Administration Protocol , 1991, NOSSDAV.

[22]  Nanying Yin,et al.  A dynamic rate control mechanism for integrated networks , 1991, IEEE INFCOM '91. The conference on Computer Communications. Tenth Annual Joint Comference of the IEEE Computer and Communications Societies Proceedings.

[23]  Colin Parris The dynamic management of guaranteed-performance connections in packet switched integrated-services networks , 1994 .

[24]  Hui Zhang,et al.  Graceful adaptation of guaranteed performance service connections , 1993, Proceedings of GLOBECOM '93. IEEE Global Telecommunications Conference.

[25]  Fumio Teraoka,et al.  A network architecture providing host migration transparency , 1991, SIGCOMM 1991.

[26]  Anindo Banerjea,et al.  Network support for multimedia: a discussion of the Tenet approach , 1994 .

[27]  David J. Parish,et al.  Statistics of video signals for viewphone-type pictures , 1989, IEEE J. Sel. Areas Commun..

[28]  Mohammed Ghanbari,et al.  Two-layer coding of video signals for VBR networks , 1989, IEEE J. Sel. Areas Commun..

[29]  Riccardo Gusella,et al.  Motion video coding for packet-switching networks: an integrated approach , 1991, Other Conferences.

[30]  Deborah Estrin,et al.  A study of priority pricing in multiple service class networks , 1991, SIGCOMM '91.

[31]  Domenico Ferrari,et al.  Rate-controlled static-priority queueing , 1993, IEEE INFOCOM '93 The Conference on Computer Communications, Proceedings.

[32]  Anindo Banerjea,et al.  Recovering guaranteed performance service connections from single and multiple faults , 1994, 1994 IEEE GLOBECOM. Communications: The Global Bridge.

[33]  A. Banerjea,et al.  An investigation into fault recovery in guaranteed performance service connections , 1994, Proceedings of ICC/SUPERCOMM'94 - 1994 International Conference on Communications.

[34]  D. Estrin,et al.  RSVP: a new resource reservation protocol , 1993, IEEE Communications Magazine.

[35]  Anindo Banerjea,et al.  The Tenet real-time protocol suite: design, implementation, and experiences , 1996, TNET.

[36]  Ramesh Nagarajan,et al.  HeiRAT: The Heidelberg Resource Administration Technique Design Philosophy and Goals , 1993, Kommunikation in Verteilten Systemen.

[37]  C. Parris,et al.  A Framework for the Study of Pricing in Integrated Networks , 1992 .

[38]  C. Zheng,et al.  ; 0 ; , 1951 .