Motivated by the sequence reconstruction problem from traces in DNA-based storage, we consider the problem of designing codes for the deletion channel when multiple observations (or traces) are available to the decoder. We propose simple binary and non-binary codes based on Varshamov-Tenengolts (VT) codes. The proposed codes split the codeword in blocks and employ a VT code in each block. The availability of multiple traces helps the decoder to identify deletion-free copies of a block, and to avoid mis-synchronization while decoding. The encoding complexity of the proposed scheme is linear in the codeword length; the decoding complexity is linear in the codeword length, and quadratic in the number of deletions and the number of traces. The ...
Finding large deletion correcting codes is an important issue in coding theory. Many researchers hav...
We consider insertion and deletion channels with the additional assumption that the channel input se...
Data that is either transmitted over a communication channel or stored in memory is not always compl...
Motivated by DNA-based storage applications, we study the problem of reconstructing a coded sequence...
Edit channels are a class of communication channels where the output of the channel is an edited ver...
Deletion and insertion errors are experienced in various communication and storage systems. These er...
Construction of capacity achieving deletion correcting codes has been a baffling challenge for decad...
Consider two remote nodes (encoder and decoder), each with a binary sequence. The encoder's sequence...
Error-correcting codes have played an important role in improving efficiency and reliability in clas...
DNA-based storage has potentially unprecedented advantages of high information density and long dura...
International audienceThis paper investigates channel coding for DNA data storage, a recent and emer...
We introduce a general technique that we call syndrome compression, for designing low-redundancy err...
We consider the problem of designing low-redundancy codes in settings where one must correct deletio...
International audienceThis paper is dedicated to channel modeling and error-correction coding for DN...
Finding large deletion correcting codes is an important issue in coding theory. Many researchers hav...
We consider insertion and deletion channels with the additional assumption that the channel input se...
Data that is either transmitted over a communication channel or stored in memory is not always compl...
Motivated by DNA-based storage applications, we study the problem of reconstructing a coded sequence...
Edit channels are a class of communication channels where the output of the channel is an edited ver...
Deletion and insertion errors are experienced in various communication and storage systems. These er...
Construction of capacity achieving deletion correcting codes has been a baffling challenge for decad...
Consider two remote nodes (encoder and decoder), each with a binary sequence. The encoder's sequence...
Error-correcting codes have played an important role in improving efficiency and reliability in clas...
DNA-based storage has potentially unprecedented advantages of high information density and long dura...
International audienceThis paper investigates channel coding for DNA data storage, a recent and emer...
We introduce a general technique that we call syndrome compression, for designing low-redundancy err...
We consider the problem of designing low-redundancy codes in settings where one must correct deletio...
International audienceThis paper is dedicated to channel modeling and error-correction coding for DN...
Finding large deletion correcting codes is an important issue in coding theory. Many researchers hav...
We consider insertion and deletion channels with the additional assumption that the channel input se...
Data that is either transmitted over a communication channel or stored in memory is not always compl...