Rateless spinal codes
Jonathan Perry,Hari Balakrishnan,Devavrat Shah +2 more
- 14 Nov 2011
- pp 6
TL;DR: A novel rateless code, the spinal code, which uses a hash function over the message bits to produce pseudo-random bits that in turn can be mapped directly to a dense constellation for transmission.
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Abstract: A fundamental problem in wireless networks is to develop communication protocols that achieve high throughput in the face of noise, interference, and fading, all of which vary with time. An ideal solution is a rateless wireless system, in which the sender encodes data without any explicit estimation or adaptation, implicitly adapting to the level of noise or interference. In this paper, we present a novel rateless code, the spinal code, which uses a hash function over the message bits to produce pseudo-random bits that in turn can be mapped directly to a dense constellation for transmission. Results from theoretical analysis and simulations show that spinal codes essentially achieve Shannon capacity, and out-perform best-known fixed rate block codes.
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Citations
Efficient and reliable low-power backscatter networks
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- 13 Aug 2012
TL;DR: This paper introduces a new approach to backscatter communication that ensures only a few nodes collide at any time, and makes collisions act as a sparse code and decode them using a new customized compressive sensing algorithm.
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References
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TL;DR: It is shown analytically that the maximal rate achievable with error probability ¿ isclosely approximated by C - ¿(V/n) Q-1(¿) where C is the capacity, V is a characteristic of the channel referred to as channel dispersion, and Q is the complementary Gaussian cumulative distribution function.
Channel coding with multilevel/phase signals
TL;DR: A coding technique is described which improves error performance of synchronous data links without sacrificing data rate or requiring more bandwidth by channel coding with expanded sets of multilevel/phase signals in a manner which increases free Euclidean distance.
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•Proceedings Article
LT codes
Michael Luby
- 16 Nov 2002
TL;DR: LT codes are introduced, the first rateless erasure codes that are very efficient as the data length grows, and are based on EMMARM code, which was introduced in version 2.0.
3.2K
•Proceedings Article
Raptor Codes
Amin Shokrollahi
- 01 Jul 2007
TL;DR: In this paper, the authors introduce several classes of probabilistic Fountain codes, including LT-and Raptor codes, and discuss how they are used today to solve various data transmission problems on heterogeneous unreliable networks.
2.2K
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