In this paper we propose a new design of LT codes, which decreases the amount of necessary overhead in comparison to existing designs. The design focuses on a parameter of the LT decoding process called the ripple size. This parameter was also a key element in the design proposed in the original work by Luby. Specifically, Luby argued that an LT code should provide a constant ripple size during decoding. In this work we show that the ripple size should decrease during decoding, in order to reduce the necessary overhead. Initially we motivate this claim by analytical results related to the redundancy within an LT code. We then propose a new design procedure, which can provide any desired achievable decreasing ripple size. The new design proc...
Abstract—We propose a family of systematic rateless codes that are universally capacity-approaching ...
Luby Transform (LT) code is considered as an efficient erasure fountain code. The construction of th...
LT encoder design has always been a basic and crucial topic ever since the development of fountain c...
Abstract—In the orignal work on LT codes by Luby, the ripple size during decoding was designed to be...
Abstract—In this paper we present an analytical framework for designing LT codes in additive white G...
Abstract—In this paper, we present an analytical framework for designing LT codes in additive white ...
LT codes provide an efficient way to transfer information over erasure channels. Past research has i...
We present a simple model of inactivation decoding for LT codes which can be used to estimate the de...
In this paper, an improved LT code with a reverse coding framework is designed to reduce the error f...
Based on recent results on the performance of LT codes under inactivation decoding, we show how to d...
Luby Transform (LT) codes are powerful packet erasure codes with low encoding and decoding complexit...
This paper presents a novel framework, which enables a design of rateless codes for binary input add...
Rateless codes are a class of codes without a predefined number of encoding symbols. Fountain codes ...
Reliable transmission over error-prone channels is always a problem for network researchers. To cont...
Luby Transform (LT) codes are powerful packet erasure codes with low encoding and decoding complex...
Abstract—We propose a family of systematic rateless codes that are universally capacity-approaching ...
Luby Transform (LT) code is considered as an efficient erasure fountain code. The construction of th...
LT encoder design has always been a basic and crucial topic ever since the development of fountain c...
Abstract—In the orignal work on LT codes by Luby, the ripple size during decoding was designed to be...
Abstract—In this paper we present an analytical framework for designing LT codes in additive white G...
Abstract—In this paper, we present an analytical framework for designing LT codes in additive white ...
LT codes provide an efficient way to transfer information over erasure channels. Past research has i...
We present a simple model of inactivation decoding for LT codes which can be used to estimate the de...
In this paper, an improved LT code with a reverse coding framework is designed to reduce the error f...
Based on recent results on the performance of LT codes under inactivation decoding, we show how to d...
Luby Transform (LT) codes are powerful packet erasure codes with low encoding and decoding complexit...
This paper presents a novel framework, which enables a design of rateless codes for binary input add...
Rateless codes are a class of codes without a predefined number of encoding symbols. Fountain codes ...
Reliable transmission over error-prone channels is always a problem for network researchers. To cont...
Luby Transform (LT) codes are powerful packet erasure codes with low encoding and decoding complex...
Abstract—We propose a family of systematic rateless codes that are universally capacity-approaching ...
Luby Transform (LT) code is considered as an efficient erasure fountain code. The construction of th...
LT encoder design has always been a basic and crucial topic ever since the development of fountain c...