J. Byers, M. Luby, and M. Mitzenmacher. A digital fountain approach to asynchronous reliable multicast. IEEE Journal on Selected Areas in Communications, 20(8), October 2002.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....cross edges and is responsible for fast data recovery in PRM under high failure rates of overlay nodes. Existing approaches for resilient and reliable multicast use either reactive retransmissions (e.g. RMTP [18] STORM [20] Lorax [13] or proactive error correction codes (e.g. Digital Fountain [3]) and can only recover from packet losses on the overlay links. Therefore the proactive randomized forwarding is a key difference between our approach and other well known existing approaches. We explain the specific details of proactive randomized forwarding using the example shown in Figure 2. ....

....traffic at the rate of 16 packets per second. For all these experiments we chose a latency deadline of upto 8 seconds. As a consequence the size of the the packet buffer for NAK based retransmissions is 128. The packet buffer will be larger for longer deadlines. The Digital Fountain technique [3], uses Tornado codes that require the receiver to correctly receive (1 )d packets to recover the d data packets, where is a small constant. 11 We performed detailed experiments with a wide range of parameters to study different aspects of the PRM scheme. The network topologies were generated ....

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J. Byers, M. Luby, and M. Mitzenmacher. A digital fountain approach to asynchronous reliable multicast. IEEE Journal on Selected Areas in Communications, 20(8), Oct. 2002.

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J. Byers, M. Luby, and M. Mitzenmacher. A Digital Fountain Approach to Asynchronous Reliable Multicast. IEEE JSAC Special Issue on Network Support for Multicast Communication, 20(8):1528--1540, October 2002. A preliminary version appeared in ACM SIGCOMM '98.

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J. Byers, M. Luby, and M. Mitzenmacher. A Digital Fountain Approach to Asynchronous Reliable Multicast. IEEE J-SAC Special Issue on Network Support for Multicast Communication, 20(8):1528--1540, October 2002. A preliminary version appeared in ACM SIGCOMM '98.

No context found.

J. Byers, M. Luby, and M. Mitzenmacher. A Digital Fountain Approach to Asynchronous Reliable Multicast. IEEE JSAC Special Issue on Network Support for Multicast Communication, 20(8):1528--1540, October 2002. A preliminary version appeared in ACM SIGCOMM '98.

No context found.

J. Byers, M. Luby, and M. Mitzenmacher. A Digital Fountain Approach to Asynchronous Reliable Multicast. IEEE JSAC Special Issue on Network Support for Multicast Communication, 20(8):1528--1540, October 2002. A preliminary version appeared in ACM SIGCOMM '98.

No context found.

Byers, J. W., Luby, M., and Mitzenmacher, M. A digital fountain approach to asynchronous reliable multicast. IEEE Journal on Selected Areas in Communications 20, 8 (2002), 1528--1540.

....version of this paper appeared in Proc. of NGC 00 in Stanford, CA [8] De ning appropriate multicast congestion control algorithms which scale to large, heterogeneous audiences sizes is essential for enabling multicast killer apps such as reliable content distribution to large audiences [5] and video streaming [12] Multi rate congestion control, as opposed to single rate congestion control [17] is a de facto requirement for scaling to large audience sizes, to avoid the problem of establishing a single session rate which caters to the receiver with the lowest end to end rate. ....

....control [17] is a de facto requirement for scaling to large audience sizes, to avoid the problem of establishing a single session rate which caters to the receiver with the lowest end to end rate. Standard approaches to multi rate congestion control employ layered multicast [12] 18] [5] from a single source. Layered multicast organizes multiple multicast groups into logical layers. A host tunes its reception rate by subscribing to and unsubscribing from layers, i.e. by joining and leaving multicast groups. Di erent receivers may subscribe at di erent end to end subscription ....

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J. Byers, M. Luby, and M. Mitzenmacher. A Digital Fountain Approach to Asynchronous Reliable Multicast. In IEEE Journal on Selected Areas in Communication, 2002.

....balls randomly into bins and it may be of independent interest. We provide a full analysis of the behavior of the LT process using first principles of probability theory, which precisely captures the behavior of the data recovery process. The digital fountain approach concept introduced in [7] [6] is similar to that of a universal erasure code, and LT codes are the first full realization of this concept. This paper describes some of the theoretical underpinnings of some portions of the work described in [12] 13] 1.1 Some encoding details The process of generating an encoding symbol is ....

.... suggested using implementations of both Reed Solomon and Tornado codes for reliable data distribution applications, and in these cases both k and n either are limited to fairly small values due to practical considerations or are fixed before the encoding process begins, see e.g. 21] 26] 2] 7] [6]. Ideally, as is the case with a ReedSolomon code [25] any k of the n encoding symbols is sufficient to recover the original k input symbols (see for example [18] Sometimes, as is the case with a Tornado code [16] 17] slightly more than k of the n encoding symbols are needed to recover the ....

[Article contains additional citation context not shown here]

J.W. Byers, M. Luby, M. Mitzenmacher. A Digital Fountain Approach to Asynchronous Reliable Multicast. IEEE J. on Selected Areas in Communications, Special Issue on Network Support for Multicast Communications, 2002.

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J. Byers, M. Luby, and M. Mitzenmacher. A digital fountain approach to asynchronous reliable multicast. IEEE Journal on Selected Areas in Communications, 20(8), October 2002.

No context found.

J. Byers, M. Luby, and M. Mitzenmacher. A digital fountain approach to asynchronous reliable multicast. IEEE Journal on Selected Areas in Communications, 20(8), Oct. 2002.

No context found.

J. Byers, M. Luby, and M. Mitzenmacher. A digital fountain approach to asynchronous reliable multicast. IEEE Journal on Selected Areas in Communications, 20(8), Oct. 2002.

No context found.

JW Byers, M Luby, M Mitzenmacher, "A Digital Fountain Approach to Asynchronous Reliable Multicast", in IEEE J-SAC, Special Issue on Network Support for Multicast Communication v 20 no 8 (Oct 2002) pp. 1528 - 1540; earlier version as ICSI Technical Report TR-98-005, and SIGCOMM 1998

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J. Byers, M. Luby, and M. Mitzenmacher. A digital fountain approach to asynchronous reliable multicast. IEEE Journal on Selected Areas in Communications, 20(8), Oct. 2002.

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