Optimal Streaming Erasure Codes Over the Three-Node Relay Network
This paper investigates low-latency streaming codes for a three-node relay network. The source transmits a sequence of messages (streaming messages) to the destination through the relay between them, where the first-hop channel from the source to the relay and the second-hop channel from the relay t...
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| Published in | IEEE transactions on information theory Vol. 66; no. 5; pp. 2696 - 2712 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.05.2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | This paper investigates low-latency streaming codes for a three-node relay network. The source transmits a sequence of messages (streaming messages) to the destination through the relay between them, where the first-hop channel from the source to the relay and the second-hop channel from the relay to the destination are subject to packet erasures. Every source message generated at a time slot must be recovered perfectly at the destination within the subsequent T time slots. In any sliding window of <inline-formula> <tex-math notation="LaTeX"> {T}+1 </tex-math></inline-formula> time slots, we assume no more than <inline-formula> <tex-math notation="LaTeX"> {N}_{1} </tex-math></inline-formula> and <inline-formula> <tex-math notation="LaTeX">{N}_{2} </tex-math></inline-formula> erasures are introduced by the first-hop channel and second-hop channel respectively. We fully characterize the maximum achievable rate in terms of T , <inline-formula> <tex-math notation="LaTeX"> {N}_{1} </tex-math></inline-formula> and <inline-formula> <tex-math notation="LaTeX"> {N}_{2} </tex-math></inline-formula>. The achievability is proved by using a symbol-wise decode-forward strategy where the source symbols within the same message are decoded by the relay with different delays. The converse is proved by analyzing the maximum achievable rate for each channel when the erasures in the other channel are consecutive (bursty). In addition, we show that traditional message-wise decode-forward strategies, which require the source symbols within the same message to be decoded by the relay with the same delay, are sub-optimal in general. |
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| AbstractList | This paper investigates low-latency streaming codes for a three-node relay network. The source transmits a sequence of messages (streaming messages) to the destination through the relay between them, where the first-hop channel from the source to the relay and the second-hop channel from the relay to the destination are subject to packet erasures. Every source message generated at a time slot must be recovered perfectly at the destination within the subsequent T time slots. In any sliding window of <inline-formula> <tex-math notation="LaTeX"> {T}+1 </tex-math></inline-formula> time slots, we assume no more than <inline-formula> <tex-math notation="LaTeX"> {N}_{1} </tex-math></inline-formula> and <inline-formula> <tex-math notation="LaTeX">{N}_{2} </tex-math></inline-formula> erasures are introduced by the first-hop channel and second-hop channel respectively. We fully characterize the maximum achievable rate in terms of T , <inline-formula> <tex-math notation="LaTeX"> {N}_{1} </tex-math></inline-formula> and <inline-formula> <tex-math notation="LaTeX"> {N}_{2} </tex-math></inline-formula>. The achievability is proved by using a symbol-wise decode-forward strategy where the source symbols within the same message are decoded by the relay with different delays. The converse is proved by analyzing the maximum achievable rate for each channel when the erasures in the other channel are consecutive (bursty). In addition, we show that traditional message-wise decode-forward strategies, which require the source symbols within the same message to be decoded by the relay with the same delay, are sub-optimal in general. This paper investigates low-latency streaming codes for a three-node relay network. The source transmits a sequence of messages (streaming messages) to the destination through the relay between them, where the first-hop channel from the source to the relay and the second-hop channel from the relay to the destination are subject to packet erasures. Every source message generated at a time slot must be recovered perfectly at the destination within the subsequent T time slots. In any sliding window of [Formula Omitted] time slots, we assume no more than [Formula Omitted] and [Formula Omitted] erasures are introduced by the first-hop channel and second-hop channel respectively. We fully characterize the maximum achievable rate in terms of T , [Formula Omitted] and [Formula Omitted]. The achievability is proved by using a symbol-wise decode-forward strategy where the source symbols within the same message are decoded by the relay with different delays. The converse is proved by analyzing the maximum achievable rate for each channel when the erasures in the other channel are consecutive (bursty). In addition, we show that traditional message-wise decode-forward strategies, which require the source symbols within the same message to be decoded by the relay with the same delay, are sub-optimal in general. |
| Author | Zhu, Xiaoqing Apostolopoulos, John Fong, Silas L. Khisti, Ashish Li, Baochun Tan, Wai-Tian |
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| Snippet | This paper investigates low-latency streaming codes for a three-node relay network. The source transmits a sequence of messages (streaming messages) to the... |
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| SubjectTerms | Cloud computing Data centers Delays Encoding Forward error correction maximum achievable rate message-wise decode-forward Messages packet erasures Relay Relay networks (telecommunications) Service introduction streaming Streaming media symbol-wise decode-forward Symbols three-node relay network |
| Title | Optimal Streaming Erasure Codes Over the Three-Node Relay Network |
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