Citations: Design of an Integrated Services Packet Network

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J. S. Turner, "Design of an Integrated Services Packet Network," IEEE JSAC, vol sac-4, no. 8, Nov. 1986, pp. 1373-1380.

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Multicast in the Asynchronous Transfer Mode Environment - Doar (1993) (7 citations) (Correct)

....Switch Fabric Multicast Fabric Switch Fabric Input Port Controllers Output Port Controllers Multicast Controllers Figure 3.2: Cascaded 4 Theta4 Multicast Switch them. This is shown in Figure 3.2 for a connection of fanout two in a 4 Theta4 switch. The two fabrics are cascaded [Lea88, Turner86b] together to form a multicast switch. The replication of the cells may be performed in serial or parallel in either design. If the cells are replicated serially then the control of the port controllers is greatly simplified, since there is no need for more than one controller to know about a ....

J S Turner. Design of an Integrated Services Packet Network. IEEE J. Selected Areas in Communication, 4(8):1373--1380, November 1986. (p 34)

MCP: A Protocol For Coordination and Temporal Synchronization in .. - Yavatkar (1991) (30 citations) (Correct)

.... associated with it to provide predictable performance needed by real time voice or video channels [Fer90] The question of how to satisfy the real time performance requirements of a flow is not the focus of discussion here; that question has been addressed by many researchers [FV90, Zha89, Tur86, Yav89] Instead, the focus here is on research issues in using and combining such flows to build multimedia, collaborative, distributed applications. For the design of multimedia systems such as PolySchmues, one must address two aspects of coordination, namely, what sort of coordination is ....

J. Turner. Design of an integrated service packet network. IEEE Journal on Selected Areas in Communication, pages 1373--1380, November 1986.

A Fast Packet Switch for the Integrated Services Backbone Network - Newman (1988) (5 citations) (Correct)

....by an increasing availability of video services. To meet this demand for increased bandwidth and for an expanding diversity of services in the backbone network, evolution towards the broadband ISDN, with the consequent requirement for new switching techniques, will become increasingly desirable [3] The enhancements offered by a suitable switching mechanism should include: increased flexibility, high traffic capacity, enhanced bandwidth efficiency for bursty services, inherent rate adaption, and the service independent support of multiservice traffic. A recent study of switching ....

....in the region 4 64 octets. Two fundamental components are required to construct a fast packet switch: switching and buffering. This results in three possible classes of fast packet switch design: input buffered, in which the buffering precedes the switching using a nonbuffered switch fabric [13] output buffered, in which the buffering follows the switching also using a nonbuffered switch fabric [11] 14] and the buffered switch fabric where buffering occurs internally within the switch fabric [6] 15] 18] 33] 34] The decision to investigate the design of a fast packet switch ....

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J. S. Turner, "Design of an integrated services packet network," IEEE J. Select. Areas Commun., vol. SAC-4, pp. 1373--1380, Nov. 1986.

A Virtual Loss-Load Congestion Control Strategy for High Speed.. - Prithviraj (1994) (3 citations) (Correct)

....Network Evolution Communication networks have undergone dramatic changes in the past two decades. These changes have occurred both in the protocols as well as in the switching techniques underlying communication technology. Current packet network protocols are influenced by fast packet switching [36]. Fast packet switching is based on the fact that transmission links have become increasingly reliable over the years. Switches need to operate at higher speeds due to the increase in available bandwidth. There is no need to perform error recovery procedures on a link by link basis; instead it can ....

J. Turner, "Design of an Integrated Services Packet Network", Proceedings of ACM SIGCOMM 1985, pp. 124-133, 1985.

Analysis of Queueing Displacement Using Switch Port Speedup - Cidon, Khamisy, Sidi (Correct)

....the architecture of hardware based fast packet switches. The ability to implement cost effective high speed switches in silicon is (along with the advance of fiber optic technologies) the enabling technology behind the recent rise of broadband integrated networks in particular the ATM architecture [1, 2, 3, 4, 5, 6]. Fast hardware based switches have also been at the core of the emerging switched LAN (also termed switching hubs) products as well as the new generation of Gigabit routers [http: www.bbn.com magazine techwatch router.html] Current switching systems designs in high speed packet switching ....

J. S. Turner. Design of an integrated services packet network. IEEE Journal on Selected Areas in Communications, SAC 4:1373--1380, Nov. 1986.

Adaptive Multipath Routing of Connectionless.. - Sole-Pareta.. (1994) (Correct)

....the connection oriented ATM networks that are used to implement B ISDN services do not offer a DTM service. Thus, the third option, based on semi permanent virtual circuits, seems to be the most suitable option for providing LAN interconnection services in ATM networks. A solution suggested in [Tur86] provides a DTM service in ATM networks by using a switch architecture capable of distinguishing between cells coming from a connection oriented source or from a CL PDU (Connectionless Protocol Data Unit) and treating them in different ways. However, the proposed switch architecture requires a ....

Jonathan S. Turner. "Design of an Integrated Services Packet Network". IEEE Journal of Selected Areas in Communications, Vol.4, No. 8, 1986.

Isochronets: a High-Speed Network Switching Architecture - Florissi (1993) (6 citations) (Correct)

....or even Terabits per second are a reality. At these rates, processing inside the network must be minimized. For example, at 2.4Gb s transmission rates, a processor has 177ns to switch an ATM cell. During this period, a 100MIPS processor can execute only 17 instructions. Recent HSN architectures [2, 8, 11, 12, 14, 18, 21, 22, 24, 30, 31, 32, 33, 34, 35, 36, 38] have directly addressed these issues by standing to a new design paradigm: relieve intelligence from the network, relaying functionality to its periphery. Network layer functions [29] such as routing and congestion control are shifted to the Media Access sublayer (MAC) being performed at the ....

Turner, J.S., "Design of an integrated services packet network," IEEE Journal of Selected Areas in Communications, vol. 4, no. 8, 1373-1379, 1986.

Fixed-Length Packets versus Variable-Length Packets in Fast Packet .. - Shaw (1994) (Correct)

....sparsely distributed network (which was one of the main reasons for the demise of the Telex) These advantages led to the development of the Integrated Services Digital Network (ISDN) standard, which would provide the single wire, as well as the universal service. Unfortunately, as is described in [17] by Turner, the architecture for the ISDN network was essentially two completely different networks one for voice, one for data which would only be physically packaged in the same box and wire. In the same paper [17] Turner sketches out an architecture for a unified network which could ....

....wire, as well as the universal service. Unfortunately, as is described in [17] by Turner, the architecture for the ISDN network was essentially two completely different networks one for voice, one for data which would only be physically packaged in the same box and wire. In the same paper [17], Turner sketches out an architecture for a unified network which could handle both kinds of traffic, and which was the basis for the standards being considered today for Fast Packet Switching. 1.2 Packet Switching vs. Circuit Switching Because the demands for voice and data traffic are so ....

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Jonathan S. Turner. Design of an Integrated Services Packet Network. IEEE Journal on Selected Areas in Communications, SAC-4(8):1373--1379, November 1986.

Active Routing - Maxemchuk, Low (Correct)

No context found.

J. S. Turner, "Design of an Integrated Services Packet Network," IEEE JSAC, vol sac-4, no. 8, Nov. 1986, pp. 1373-1380.

Cmap - Cox, DeHart (1994) (Correct)