Multimedia over FDDI

Shah, Asadullah; Staddon, D.; Rubin, I.; Ratkovic, A.

doi:10.1109/lcn.1992.228168

Cited by 24 publications

(5 citation statements)

References 22 publications

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“…It is because the human eye can hardy recognize a frame which is out of synchronization within 3 frame-time --that is 1/10 second. Studies by Shah et al [SHA92] have shown that our vision system will recognize a sequence of frames as distinct pictures if the display rate is at 8 frames per second or lower. Between 10 to 12 frames per second, the frame sequence would appear to be choppy.…”

Section: The Regulated Schemementioning

confidence: 99%

MPEG transmission schemes for a timed token medium access control network

1999

SIGCOMM Comput. Commun. Rev.

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This paper presents three transmission schemes to improve the transmission of MPEG video over a timed token medium access control (MAC) network. Multiple classes of MPEG video IntroductionBecause of the demands of the videos on network bandwidth, video data needs to be compressed before being transmitted over a computer network. Many compression schemes have been proposed or developed for these variable bit rate (VBR) video services. Of all these video compression schemes, the scheme developed by the Moving Pictures Experts Group (MPEG) is the most notable. By MPEG standard, video information is compressed frame by frame, and the resultant frames should be transmitted and processed under stringent timing constraints. To support such applications on top of a computer network, the underlying transmission scheme must ensure that most, if not all, frames should reach their destinations before their deadlines. Frames arriving late and missing their deadlines will result in a poorer quality of the picture or jumpy video. Hence, it is a tradeoff between video quality and on-time delivery of video frames.In order to address the issue of on-time video frame delivery, transmission delays for the underlying network must be deterministic and bounded. Here, we adopted the time token medium access control protocol because of its important property of bounded transmission delay. This bounded delay property is a necessity for real-time communications, multimedia computing systems, and industrial process controls. This is why the timed token MAC protocol has been well received and being adopted in several high-bandwidth network standards over the years.

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Section: The Regulated Schemementioning

confidence: 99%

MPEG transmission schemes for a timed token medium access control network

1999

SIGCOMM Comput. Commun. Rev.

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“…The phenomenon has been studied extensively, however, for participants in interactive phone conversations [35], and these results provide rst-order information on the delays acceptable in other interactive applications. Table 1.1 gives a summary of the eects of roundtrip delay on speech quality (adapted from [53]). In general, high-quality voice applications require less than 200 ms roundtrip delays, but delays of up to 600 ms have been shown to be acceptable [35].…”

Section: Roundtrip Delaymentioning

confidence: 99%

Retransmission-based Error Control for Continuous Media Traffic in Packet-switched Networks

Dempsey

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“…This application involves the transmission of audio, visual and textual instructions. The total traffic volume for each multimedia session is 6.877 Mbps [22] . Figure 2 shows the maximum number of multimedia sessions a network protocol can support at various data transfer rates.…”

Section: Simulation Experimentsmentioning

confidence: 99%

“…This application also contains audio and textual data. The total traffic volume per multimedia session is 3.594 Mbps [22] . The traffic volume for this application is almost half of that for the interactive educationltraining application.…”

Section: Interactive Education / Trainingmentioning

confidence: 99%

“…It has an even lower traffic volume than our previous multimedia applications. Table 9 lists the parameters; the overall traffic volume for each video conference session is just 1.594 Mbps [22] . When we compare Figure 8 with Figure 10, we see that each protocol can support more sessions in the video conference workload set, but the relative performance stays the same.…”

Section: Video Conferencesmentioning

confidence: 99%

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Performance of high-speed networks for multimedia applications

Ng¹,

Liu

1993 18th Conference on Local Computer Networks

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In a multimedia application, text, graphics, high quality sounds and video images are transmitted and processed. To have multimedia applications running on top of a network, the underlying network must ensure that all the messages will meet their deadlines. Messages missing their deadlines will result in a poorer quality of sound and video. In such a network, on-time delivery of messages is essential. This paper studies the real-time performance of several existing local-area network medium-access protocols under high-speed data transfer rates. The goal of this study is t o determine the limitations in the ability of the protocols to guarantee on-time delivery of messages for different types of multimedia applications.

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Multimedia over FDDI

Cited by 24 publications

References 22 publications

MPEG transmission schemes for a timed token medium access control network

MPEG transmission schemes for a timed token medium access control network

Retransmission-based Error Control for Continuous Media Traffic in Packet-switched Networks

Performance of high-speed networks for multimedia applications

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