M. de Prycker. Asynchronous Transfer Mode: Solution for Broadband ISDN. Ellis Horwood Limited, 1991.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....topology views We currently support two logical topology views: a view of the virtual paths on a single link or switch, and a view of the complete virtual path through the network. A virtual path is a logical path through a physical network that uses some portion of the available bandwidth [2]. In the logical link attachment view, we display all virtual paths associated with a given physical link, as shown in Figure 2. The thin cylindrical link representation of the physical topology view is replaced with a thick cylindrical link that is sliced open to reveal the virtual paths inside. ....

de Prycker, M. Asynchronous Transfer Mode Solution for Broadband ISDN. Ellis Horwood, New York, 1991.

....the packet. If cells are lost during the transmission, the size of the received packet differs from the size given in the trailer. This allows detection of a corrupted packet. The maximum payload size of an AAL5 packet is 64 kilobytes. More information about ATM Adaptation Layers can be found in [7]. The Windows 95 driver for the Efficient Networks ATM card does not allow direct access to the AAL5 level. The driver for AAL5 with no higher protocols is being developed, but it is currently not available. The easiest alternative way to access the ATM network is through a User Datagram Protocol ....

de Prycker, Martin: "Asynchronous Transfer Mode - Solution for Broadband ISDN", Prentice Hall International Ltd., 1995.

....network entrance, as we shall see later, does not change the end to end delay bound, while significantly reducing the buffer requirement inside the network. 2. 2 Traffic Regulation and Scheduling inside the Network We model an ATM switch as an output buffered multiple input multiple output switch [19]. In this model, no cells are lost due to contention within the switch fabric, and contention exists only among those cells sharing the same outgoing link. Assuming that the switching delay is negligible as compared to the queueing delay at an output buffer, we concentrate on controlling the ....

M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood, London, 1991.

....to buffer overrun, because the modified TCRM used in our scheme can guarantee the delivery deadline of every cell as long as it is not lost due to buffer overrun. More on this will be discussed in Section 3.4.2. 2. 1 TCRM The TCRM [9] is a cell scheduling scheme for output queueing ATM switches [24] in order to provide a guaranteed throughput to individual deterministic real time channels sharing a common outgoing link. It emulates circuit switching during a period longer than the cell inter arrival time of each real time channel. Figure 1 shows the structure of the TCRM consisting of a set ....

M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood, London, 1991.

....to buffer overrun, because the modified TCRM used in our scheme can guarantee the delivery deadline of every cell as long as it is not lost due to buffer overrun. More on this will be discussed in Section 3.4.2. 2. 1 TCRM The TCRM [9] is a cell scheduling scheme for outputqueueing ATM switches [28] in order to provide a guaranteed throughput to individual deterministic realtime channels sharing a common outgoing link. It emulates circuit switching during a period longer than the cell interarrival time of each real time channel. Fig. 1 shows the structure of the TCRM consisting of a set of ....

M. dePrycker, Asynchronous Transfer Mode: Solution for Broadband SDN. London: Ellis Horwood, 1991.

....at various levels, from the switching mechanism in the underlying network to the application itself. Recent studies of Quality of Service delivery have focused on the design of network mechanisms to assure the guaranteed QoS. These studies range from the design of Asynchronous Transfer Mode (ATM) [20] protocols, resource allocation and reservation techniques such as the Resource ReSerVation Protocol (RSVP) 24] to the design of multimedia transport protocols. Mostly, these mechanisms have focused on regulating competition for network resources among traffic sources at the network level. They ....

M. De Prycker. Asynchronous Transfer Mode: Solution for Broadband ISDN. Ellis Horwood Limited, 1993.

....results and a discussion of possible extensions. 2 System model In this section, we present the network model, the connection model and the traffic descriptors used to specify the worst case traffic pattern of HRT connections. 2.1 Network model Figure 1 shows a typical ATM LAN. In ATM networks [3, 8, 19], messages are packetized into fixed size cells. The time to transmit a single cell is a constant denoted by CT . We assume that time is normalized in terms of CT . That is, in this paper time is considered a discrete quantity with the cell transmission time (CT ) being taken as one time unit. ....

M. de Prycker. Asynchronous Transfer Mode: Solution for Broadband ISDN. Ellis Horwood, 1991. 21

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M. de Prycker. Asynchronous Transfer Mode: Solution for Broadband ISDN. Ellis Horwood Limited, 1991.

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M. De Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood, Chichester, England, 1991.

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M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood, 1991.

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M. de Prycker, Asynchronous Transfer Mode : Solution for Broadband ISDN, 2nd Ed., Ellis Horwood, 1993.

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M. de Prycker, Asynchronous Transfer Mode : Solution for Broadband ISDN, 2nd Ed., Ellis Horwood, 1993.

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De Prycker M. 1993. "Asynchronous Transfer Mode Solution for Broadband ISDN", Series in Computer Communications and Networking, Ellis Horwood.

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M. de Prycker, Asynchronous Transfer Mode : Solution for Broadband ISDN, 2nd Ed., Ellis Horwood, 1993. 22

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M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood Ltd, Chichester, UK, 1991.

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De Prycker M., Asynchronous transfer mode : solution for broadband ISDN. Prentice Hall, third ed., 1995.

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M. de Prycker, Asynchronous Transfer Mode: Solution For Broadband ISDN, Prentice-Hall, 3rd edition, 1995.

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M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood Publishers, second edition, 1993.

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M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood, 1991.

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M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Ellis Horwood Ltd., 1993.

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M. De Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, Third Edition, London, Prentice Hall International (UK) Limited, 1995. 83

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M. De Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, EllisHorwood, Chichester, 1991.

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de Prycker, Martin, "Asynchronous transfer mode: Solution for broadband ISDN", 2nd ed., Ellis Horwood, 1993

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M. de Prycker, Asynchronous Transfer Mode: Solution for Broadband ISDN, 3rd ed. #Prentice-Hall, Englewood Cliffs, N.J., 1995#.

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M. de Prycker. Asynchronous Transfer Mode: Solution for Broadband ISDN. Ellis Horwood, second edition, 1993.

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